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Archivo disponible en formato PDF - Instituto Nacional de Ecología y
Actualización del Inventario Nacional de Gases de Efecto Invernadero 1990-­‐2010, para el sector de Desechos Instituto Nacional de Ecología y Cambio Climático (INECC)
Programa de las Naciones Unidas para el Desarrollo (PNUD)
Responsable:
Instituto de Investigaciones Eléctricas
INSTITUTO NACIONAL DE ECOLOGÍA
Y CAMBIO CLIMÁTICO
Estudio realizado en el marco del Proyecto de la Quinta Comunicación Nacional ante la Convención Marco de
las Naciones Unidas para el Cambio Climático (UNFCCC), coordinado por el Instituto Nacional de Ecología y
Cambio Climático (INECC) con recursos del Global Environment Facility (GEF), a través del Programa de las
Naciones Unidas para el Desarrollo (PNUD). México, 2012.
INSTITUTO DE INVESTIGACIONES ELECTRICAS
DIVISION DE ENERGIAS ALTERNAS
GERENCIA DE ENERGIAS NO CONVENCIONALES
“ACTUALIZACIÓN DEL INVENTARIO NACIONAL DE GASES DE
EFECTO INVERNADERO 1990-2010 EN EL SECTOR DE DESECHOS”
CONVENIO: FPP-2011-26
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INVENTARIO NACIONAL DE
GASES DE EFECTO
INVERNADERO 1990-2010
Parte 6; Desechos
Fecha:
08/08/2012
Preparado por:
José Luis Arvizu
Instituto de Investigaciones Eléctricas
Preparado para:
Instituto Nacional de Ecología
Revisado por:
Luis Conde, Víctor Escalona
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Resumen
El objetivo fundamental de este documento es el de actualizar y revisar para el periodo
1990-2010, el inventario de emisiones de metano, bióxido de carbono y óxido nitroso
provenientes de la eliminación de desechos sólidos en sitios gestionados, no
gestionados y sitios no categorizados; así como del tratamiento biológico de los
desechos sólidos, incineración e incineración abierta de desechos; y del tratamiento y
eliminación de aguas residuales domésticas e industriales. Empleando para ello la
metodología del Panel Intergubernamental de Cambio Climático (PICC) versión 2006.
La Metodología 2006 considera nuevas sub-categorías y para cubrir todas las prácticas
principales de gestión de desechos, tales como: tratamiento biológico de los desechos
sólidos; para la estimación de las emisiones de CH4 y N2O procedentes del tratamiento
biológico (preparación de composta, digestión anaeróbica en instalaciones de biogás).
Incineración abierta de desechos: complementa la orientación para estimar las
emisiones procedentes de la incineración abierta de desechos, así como las emisiones de
CH4 procedentes de la incineración. Pozos sépticos y letrinas: incluye métodos para
estimar las emisiones de CH4 y N2O procedentes de pozos sépticos y letrinas, así como
de la eliminación de las aguas residuales por canalización hacia las vías fluviales.
Las emisiones de CH4 derivadas de los residuos sólidos municipales, las aguas
residuales municipales e industriales en el período considerado de 1990 a 2010, tuvieron
un crecimiento en un factor de 3.3 en el caso de los residuos sólidos, de 2.2 para las
aguas residuales municipales y en el caso de las aguas residuales industriales 2.49 en el
período.
Las aguas residuales municipales, aportan la mayor contribución de N2O con 4.2856 Gg
y 5.9253 Gg para 1990 y 2010 respectivamente. Alcanzando estas emisiones valores
totales de 4.6916 Gg y 6.5953 Gg de N2O para 1990 y 2010 respectivamente, debido a
la inclusión de las emisiones derivadas de la incineración a cielo abierto.
En 1990 los residuos sólidos contribuyeron con 34.5%, las aguas residuales municipales
con el 39.4% y las aguas residuales industriales con el 18.6%, e tanto que en el año
2010 los residuos sólidos contribuyeron con el 49.4%, las aguas residuales municipales
con el 38.6% y las aguas residuales industriales con un 8.6%.
Los cambios de metodología dieron por resultado que las emisiones totales de CH4 se
redujeran a la tercera parte, comparando las emisiones para el año 2006 obtenidas con la
metodología anterior versión 1996 y la actual versión 2006. En tanto que las emisiones
de CO2 se incrementaron por la incorporación en la metodología 2006 del sub sector de
incineración a cielo abierto.
La metodología 2006 tiene mayor exactitud, pero requiere información más detallada de
un número mayor de fuentes de emisiones como las incorporadas a esta metodología, y
que no existe en nuestro país en actividades tales como: incineración abierta, manejo de
lodos residuales, combustibles alternos, y disposición de desechos industriales. De tal
manera que la metodología pude ser aplicable en el primer nivel de exactitud,
combinando factores de emisiones por defecto con datos de la actividad locales en los
sectores de residuos sólidos municipales, aguas residuales municipales e industriales.
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Tabla de Contenido
RESUMEN .................................................................................................................................................. 3
TABLA DE CONTENIDO .............................................................................................................................. 4
LISTA DE TABLAS ...................................................................................................................................... 5
LISTA DE FIGURAS .................................................................................................................................... 6
GLOSARIO ................................................................................................................................................. 7
PREFACIO .................................................................................................................................................. 8
7.1.
INTRODUCCIÓN .......................................................................................................................... 9
7.2.
INFORMACIÓN DE LAS ACTIVIDADES .............................................................................. 10
7.2.1
7.2.2
7.2.3
7.2.4
7.2.5
ELIMINACIÓN DE DESECHOS SÓLIDOS ....................................................................... 10
TRATAMIENTO BIOLOGICO DE DESECHOS SOLIDOS ............................................... 11
INCINERACION E INCINERACION ABIERTA DE DESECHOS .................................... 11
AGUAS RESIDUALES MUNICIPALES ............................................................................. 12
AGUAS RESIDUALES INDUSTRIALES ............................................................................ 12
7.3.
MÉTODO ...................................................................................................................................... 13
7.4.
RESULTADOS ............................................................................................................................. 13
7.4.1
7.5.
DISCUSIÓN. ................................................................................................................................. 18
7.5.1
7.5.2
7.5.3
7.5.4
7.5.4
7.6.
OBSERVACIONES ..................................................................................................................... 13
ELIMINACION DE DESECHOS SÓLIDOS ........................................................................ 18
TRATAMIENTO BIOLOGICO DE DESECHOS SOLIDOS ................................................ 18
INCINERACION E INCINERACION ABIERTA DE DESECHOS SOLIDOS .................. 18
AGUAS RESIDUALES MUNICIPALES ............................................................................. 19
AGUAS RESIDUALES INDUSTRIALES ............................................................................ 19
CONCLUSIONES Y RECOMENDACIONES.......................................................................... 19
Reconocimientos ................................................................................................................................. 20
REFERENCIAS .......................................................................................................................................... 21
APÉNDICE A ........................................................................................................................................... 22
TABLAS ESTÁNDAR DE REPORTE DEL PICC ............................................................................................. 22
APÉNDICE B ......................................................................................................................................... 152
NOTAS SOBRE INCERTIDUMBRE ............................................................................................................ 152
APÉNDICE C ......................................................................................................................................... 163
NOTAS SOBRE ASEGURAMIENTO Y CONTROL DE CALIDAD .................................................................. 163
APÉNDICE D ......................................................................................................................................... 182
INFORMACIÓN RECOPILADA .................................................................................................................. 182
INFORMACIÓN DEL DOCUMENTO........................................................................................................... 208
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Lista de Tablas
Página
TABLA 7.4.1 Inventario de Emisiones de GEI generadas por el Sector Desechos
(Gg CH4/año, Gg CO2/año, Gg N2O/año)
14
TABLA 7.4.2 Emisiones de CH4 ( Gg CH4/año)
15
TABLA 7.4.3 Emisiones de N2O (Gg N2O /año)
16
TABLA 7.4.4 Emisiones de CO2 (Gg CO2/año)
17
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Lista de Figuras
Página
Figura 7.4.1
Figura 7.4.2
Figura 7.4.3
Figura 7.4.4
Emisiones de Sector Desechos 1990-2010
Emisiones de CH4 1990-2010
Emisiones de N2O 1990-2010
Emisiones de CO2 1990-2010
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14
15
16
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Glosario
PICC – Panel Intergubernamental de Cambio Climático ó IPCC por sus siglas en inglés.
Residuos Sólidos Municipales – Basura domiciliaria y de servicios urbanos, comercios, etc.
SEDS – Sitios de Eliminación de Desechos Sólidos identificados como: Sitios gestionados
anaeróbios (rellenos sanitarios, Managed), Sitios gestionados semiaeróbios (Managed
Semiaerobic), Sitios no gestionados someros (Un- Managed sahllow), Sitios no
gestionados profundos (Un- Managed deep), Sitios no categorizados (Uncategorised).
Aguas Residuales Municipales - Aguas residuales producidas en domicilios, comercios y
servicios urbanos.
Aguas Residuales Industriales – Aguas usadas en procesos industriales.
Información de las actividades - Activity Data en inglés, información de las fuentes que dan
lugar a los gases efecto invernadero.
Factores de Emisión - Emission Factors en inglés, cantidad de emisiones por unidad de masa
de fuente generadora.
Gg – Unidad de medida de masa equivalente a 109 gramos, empleada para las emisiones de
GEI.
GEI – Abreviatura de Gases Efecto Invernadero.
QA/QC - Quality Assurance/ Quality Control, actividades propuestas para asegurar la calidad y
el control de la misma, comsistentes en la revisión y comparación de factores de emisión,
metodologías e información de las actividades.
Software del PICC – Programa de cálculo en Excel proporcionado por el PICC para
sistematizar y facilitar la elaboración de los inventarios de GEI.
Arbol de Decisiones – Diagrama de Flujo que propone como primer paso el GPUGM para
determinar la metodología a aplicar de acuerdo a los parámetros requeridos por la propia
metodología.
Residuos Peligrosos – Residuos generados en y por la industria que requieren tratamientos
específicos como la incineración a altas temperaturas para su disposición o confinamiento
controlado, para evitar riegos de salud y contaminación irreversible del medio ambiente.
CNA – Comisión Nacional del Agua.
SEMARNAT – Secretaría del Medio Ambiente y Recursos Naturales.
SEDESOL - Secretaría de Desarrollo Social.
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Prefacio
De acuerdo con las Directrices del PICC, la metodología versión 2006, permite obtener
resultados con mayor exactitud ya que incorporan sub sectores como el tratamiento
biológico de los desechos, la incineración abierta, la sistematización y factores de
emisión para las letrinas, fosas sépticas y canales de conducción de aguas residuales, así
como la incorporación de las emisiones derivadas de los desechos industriales y lodos
residuales.
Para la estimación de las emisiones de CH4 provenientes de los SEDS (Sitios de
Eliminación de Desechos Sólidos), se basa en el método de descomposición de primer
orden (FOD, por sus siglas en inglés). Este modelo requiere de la información relativa a
la cantidad y tipo de desechos sólidos eliminados en sitios gestionados de eliminación
de desechos anaeróbios y semiaeróbios, sitios no gestionados someros y profundos, y
sitios no categorizados. Esta información existe de fuentes oficiales (SEDESOL) bajo la
clasificación de rellenos sanitarios, rellenos de tierra controlados y sitios no controlados
o tiraderos a cielo abierto y reciclaje, de donde es necesario procesar para poder
alimentar el Modelo de descomposición de primer orden (FOD).
El mayor impacto de la metodología del PICC versión 2006, es que reduce en general
las emisiones de GEI del sector desechos significativamente, y hace dependiente al
inventario de los valores por defecto, así como del empleo en la mayoría de los casos
del nivel 1 de exactitud, en virtud del empleo de datos locales de la actividad
combinados con factores de emisión por defecto. En la medida en que se sistematice y
genere la información de acuerdo a los datos solicitados por las hojas de trabajo de la
metodología y el modelo FOD, el inventario de GEI del Sector Desechos, tendrá menor
incertidumbre, y requerirá menos tiempo para su actualización en el futuro.
Este documento consta del texto en sí del inventario donde se describen el objetivo, la
metodología, la información requerida y empleada, se resumen los resultados en forma
tabular y gráfica y su discusión, así como las conclusiones y recomendaciones del
mismo.
También consta de cuatro apéndices, el primero de ellos contiene las hojas de trabajo
(Worksheets) de la metodología para cada uno de los años del periodo considerado para
el inventario. En el segundo apéndice se presentan las Notas Sobre Incertidumbre, que
se refieren a la estimación de la misma para cada año y cada subsector, resumidos y
calculados con la hoja de trabajo prevista por las directrices de la Metodología 2006
(Volumen 1: Orientación general y generación de informes Pág. 3.34), derivadas del
Método de Propagación de Error y Variables Aleatorias.
En el tercer apéndice se incluyen las Notas Sobre Aseguramiento y Control de la Calidad,
orientadas hacia la descripción y los pasos seguidos en cada etapa y subsector para la
estimación de las emisiones de GEI consideradas. Finalmente en el apéndice cuatro se
presenta la Información Recopilada y empleada de las actividades consideradas para
realizar el inventario de GEI para el período 1990-2010.
.
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7.1. Introducción
El objetivo fundamental de este documento es el de actualizar y revisar para periodo
1990-2010, el inventario de emisiones de metano, bióxido de carbono y óxido nitroso
provenientes de la eliminación de desechos sólidos en sitios gestionados, no
gestionados y sitios no categorizados; así como del tratamiento biológico de los
desechos sólidos, incineración e incineración abierta de desechos; y del tratamiento y
eliminación de aguas residuales domésticas e industriales. Empleando para ello la
metodología del Panel Intergubernamental de Cambio Climático (PICC) versión 2006.
Los beneficios resultantes de este ejercicio son la revisión de los inventarios anteriores y
actualizarlo hasta años recientes, usando la metodología versión 2006. Otro beneficio es
el de conocer y determinar la contribución y distribución de las emisiones en cuestión a
los GEI. Así como disponer de los factores clave para proponer políticas de mitigación
del impacto de estas emisiones. La nueva versión de la metodología para estimar estas
emisiones de GEI contempla la estimación de las emisiones de CH4 y N2O procedentes
del tratamiento biológico, así como las emisiones derivadas de la incineración y de la
incineración a cielo abierto. Así como los métodos para estimar las emisiones de CH4 y
N2O procedentes de pozos sépticos, letrinas y en la canalización de aguas residuales.
El procedimiento general para la realización de los inventarios basado en la
Metodología IPCC versión 2006, se fundamenta en la selección del nivel a aplicar
mediante el árbol de decisiones correspondiente para cada fuente de emisiones. Así
como en la ubicación de la documentación empleada como referencia, la cual debe ser
incluida con toda claridad para que esté accesible en caso de revisiones externas. Y en
las actividades de aseguramiento de calidad/control de calidad (QA/QC).
La metodología 2006 incorpora el modelo descomposición de primer orden (FOD por
sus siglas en inglés) para la estimación de las emisiones de CH4 provenientes de los
desechos sólidos depositados en sitios de disposición final (SEDS), en lugar del método
anterior de equilibrio de masas recomendado por la Metodología 1996.
La metodología incorpora para la estimación de emisiones del sector en cuestión nuevas
sub categorías, tales como el tratamiento biológico de los desechos, la incineración a
cielo abierto y la aportación de fosas sépticas, letrinas y canales de conducción de las
aguas residuales, así como los residuos industriales.
La metodología incorpora como herramienta para efectuar el inventario en sus
diferentes fuentes, 18 hojas de cálculo; las dos primeras para estimar las emisiones de
CH4 y CO2 derivadas el tratamiento biológico de los desechos sólidos; las cuatro
siguientes para estimar las emisiones de CO2 derivadas de la incineración y la
incineración abierta de desechos sólidos y desechos líquidos fósiles; las cuatro hojas
siguientes para la estimación de las emisiones de CH4 y N2O derivadas de la
incineración e incineración abierta de desechos sólidos. Las siguientes ocho hojas de
cálculo se emplean para la estimación de las emisiones de las aguas residuales
municipales e industriales; las tres primeras de este grupo para estimar las emisiones de
CH4 derivadas del tratamiento de las aguas residuales municipales y las siguientes tres
para las derivadas del tratamiento de las aguas residuales industriales; las dos restantes
estiman las emisiones de N2O de las aguas residuales domésticas.
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7.2. Información de las Actividades
La Metodología 2006 considera nuevas sub-categorías y para cubrir todas las prácticas
principales de gestión de desechos, tales como:

Tratamiento biológico de los desechos sólidos: para la estimación de las
emisiones de CH4 y N2O procedentes del tratamiento biológico (preparación del abono
orgánico o composta, digestión anaeróbica en instalaciones de biogás).

Incineración abierta de desechos: complementa la orientación para estimar las
emisiones procedentes de la incineración abierta de desechos, así como las emisiones de
CH4 procedentes de la incineración.

Pozos sépticos y letrinas: incluye métodos para estimar las emisiones de CH4 y
N2O procedentes de pozos sépticos y letrinas, así como de la eliminación de las aguas
residuales por canalización hacia las vías fluviales.
La incineración y la incineración a cielo abierto de desechos que contienen carbono
fósil, p. ej., los plásticos, son las más importantes fuentes de emisiones de CO2 del
Sector Desechos. Todas las emisiones de gases de efecto invernadero procedentes de la
conversión de desechos en energía, donde el material de desecho se usa directamente
como combustible o se convierte en combustible, deben estimarse y declararse dentro
del Sector Energía (Directrices PICC de 2006, Vol. 5 Desechos pág.5.5 párrafo 2°).
7.2.1 Eliminación de Desechos Sólidos
Generalmente las emisiones de CH4 procedentes de los SEDS (Sitios de Eliminación de
Desechos Sólidos), son la mayor fuente de emisiones de gases de efecto invernadero del
Sector Desechos.
La estimación de las emisiones de CH4 provenientes de los SEDS, se basa en el método
de descomposición de primer orden (FOD). En este inventario se empleo el Nivel 2 del
modelo FOD. Este modelo requiere de la información relativa a la cantidad y tipo de
desechos sólidos eliminados en sitios gestionados anaeróbios y semiaeróbios, sitios no
gestionados someros y profundos y sitios no categorizados. Esta información existe de
fuentes oficiales (SEDESOL, págs. 183 y 184) bajo la clasificación de rellenos
sanitarios, rellenos de tierra controlados y sitios no controlados o tiraderos a cielo
abierto y reciclaje, de donde se procesó para alimentar el Modelo FOD en el periodo
1990 a 2010 (págs. 166 a 170).
Esta información incluye las cantidades de desechos sólidos municipales para el periodo
citado, de seis componentes principales, que son el contenido de: papel y cartón,
textiles, plásticos, vidrios, metales y orgánicos, dentro de los que se incluyen a los
residuos de comida y jardín (pág 168). Para cubrir años anteriores como lo pide el
modelo FOD a partir de 1950 (pág 167), se consideraron los valores propuestos por el
modelo para los años 1950 a 1990, y de 1990 a 2010 se emplearon los datos
proporcionados por SEDESOL que permitieron correr el modelo FOD y obtener los
resultados correspondientes en este inventario (pág. 170, última columna).
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7.2.2 Tratamiento Biológico de Desechos Sólidos
El tratamiento biológico de los desechos sólidos en general puede ser para la producción
de composta vía procesos aerobios y/o generación de biogás vía digestión anaeróbia. En
nuestro caso el tratamiento para la producción de composta se estimó de acuerdo a la
hoja de trabajo 4B CH4 emissions y 4B N2O emissions de la metodología, donde se
empleó en la columna A, a los valores en Gg/año de residuos tratados14 en las ciudades
de México (247.5Gg/año), Zapopan (198.0 Gg/año), Tonalá (132 Gg/año), Monterrey
(39.6 Gg/año) y Oaxaca (66.0 Gg/año), se consideró que esta capacidad de tratamiento
permaneció constante en el periodo considerado 1990-2010. Del mismo modo los
Gg/año derivados del tratamiento de lodos de las aguas residuales municipales e
industriales determinados en las hojas 4D1 (domésticas) y 4D2 (industriales), columnas
E y B respectivamente. La estimación de las emisiones de GEI (CH4 y N2O)
correspondientes se efectuaron empleando factores por defecto de las emisiones de GEI
tanto de la composta como del biogás.
Durante este lapso han existido y dejado de existir, plantas de producción de composta
en diferentes municipios de nuestro país. Sin embargo, no existe un inventario oficial
dentro del periodo en cuestión que permita tener una mayor certeza sobre este tema. La
planta de composta del relleno sanitario de Bordo Poniente, es posiblemente la única
planta que ha sido constante en su producción, de 750 toneladas14 de composta por día,
y que procesa los residuos orgánicos de la central de abastaos de la ciudad de México y
parte de los residuos de jardín generados en la Zona Metropolitana de la ciudad de
México.
7.2.3 Incineración e incineración abierta de Desechos Sólidos y Liquidos
La estimación de las emisiones de CH4, CO2 y N2O derivadas de la incineración y la
incineración a cielo abierto de desechos sólidos y desechos líquidos fósiles, requiere de
información relativa a las cantidades de residuos sólidos municipales, residuos sólidos
peligros, residuos hospitalarios y residuos líquidos fósiles. En el periodo considerado
existe información oficial consistente en el tema de los residuos sólidos municipales y
residuos sólidos hospitalarios, no así de los residuos sólidos peligrosos y desechos
líquidos fósiles, por lo que no son considerados estos últimos.
Es una práctica común la incineración de los residuos sólidos municipales depositados
en sitos no controlados o a cielo abierto sobre todo en el medio rural. De la información
oficial (SEDESOL, cuadro 1-4; INEGI), en la columna A se alimentó el valor de la
población del año correspondiente a los censos o conteos y a loas valores de años
intermedios estimados con una tasa de crecimiento de la población del periodo, se
consideró para estimar las emisiones derivadas de la incineración a cielo abierto de
estos desechos, que ocurre en un 40% solo en el medio rural, para ello en la hojas de
cálculo correspondientes (4C1, Amount Waste Open Burned) para cada año se
emplearon las fracciones de la población rural y un factor de 0.4 estimado como
fracción de los desechos incinerados en este medio.
En el caso de los residuos hospitalarios la información oficial relativa a la cantidad de
estos desechos presentada en los cuadros 40, 41 y 42 Apéndice 4 de este inventario, se
empleo junto con factores de emisión por defecto para obtener las emisiones
correspondientes.
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7.2.4 Aguas Residuales Municipales
Para estimar las emisiones de CH4 derivadas del manejo y tratamiento de las aguas
residuales municipales, la metodología proporciona tres hojas de cálculo, para la
primera hoja se requiere información relativa a la población, los kg de BOD
(Biochemical Oxigen Demand) por persona y por año, así como el factor de corrección
por descarga de BOD industrial en drenaje, estos datos permiten calcular los kg BOD
por año. Posteriormente en la segunda hoja de cálculo requiere del factor de producción
máxima de metano por kg de BOD, el factor de corrección del sistema de tratamiento,
referido al tipo de tecnología aerobia o aneróbia, para obtener el factor de emisión
expresado en kgCH4/kgBOD. Finalmente en la tercera hoja de cálculo se alimentan los
valores correspondientes a los sectores rural o urbano, tipo de tratamiento o método de
descarga, fracción del grupo poblacional rural o urbano, grado de utilización de las
aguas residuales, el factor de emisión obtenido anteriormente, la materia orgánica
(BOD) también determinado anteriormente, la fracción del lodo removido en los
diferentes sistemas de tratamiento, el metano recuperado y quemado en los diferentes
tratamientos y sectores para deducirlas y obtener finalmente las emisiones de metano en
Gg/año.
En lo que se refiere a las emisiones de N2O de este sector, la metodología proporciona
dos hojas de cálculo en la primera se combinan parámetros como el número de
habitantes, el consumo de proteína por persona, la fracción de nitrógeno en la proteína,
la cantidad de proteína industrial, la deducción del nitrógeno removido en las plantas de
tratamiento, para obtener en esta primera hoja la cantidad de nitrógeno en el efluente
considerado. En la segunda hoja se incorpora el último dato anterior que se multiplica
por un factor de conversión para obtener los valores en kg de N2O para deducirle a este
valor el N2O emitido en las plantas de tratamiento y que por default es igual a cero,
teniendo un valor distinto solo en plantas de tratamiento de alta eficiencia. Finalmente
se obtienen las emisiones totales de las aguas residuales municipales de N2O.
Estas emisiones por lo tanto, dependen en gran medida de los factores por defecto y la
serie derivada de los datos del censo de población y vivienda y conteos
correspondientes a este periodo, para obtener los balances de agua para cada año de
acuerdo al diagrama de la página 188.
7.2.5 Aguas Residuales Industriales
Para la estimación de las emisiones de CH4 derivadas de las aguas residuales
industriales, la metodología proporciona también tres hojas de cálculo, en la primera se
requiere información sobre la cantidad de producto obtenido en cada sector productivo,
en este sentido las aguas residuales son generadas en nuestro país por el sector
azucarero, químico, del papel y la celulosa, petrolero, bebidas, textil, siderúrgico, y
alimentos fundamentalmente, y un grupo menor englobado como el resto del sector. La
información oficial (págs. 192 a 199) consiste en los caudales y concentraciones de
BOD ó DBO (demanda bioquímica de oxígeno), que nos permiten obtener el total de la
carga orgánica de las aguas residuales industriales en esta primera hoja (4D2 TOW
Industry Wastewater). En la segunda se calcula el factor de emisión derivado
básicamente de la tecnología empleada y de los correspondientes valores por defecto.
En la tercera hoja de cálculo se combinan los resultados de las dos hojas anteriores y se
obtienen las emisiones de metano correspondientes una vez descontada la aportación de
X-12
los lodos y el metano recuperado, que para nuestro país este valor es igual a cero al no
existir registro ni evidencia oficial al respecto.
7.3.
Método
El Procedimiento general seguido para estimar las emisiones de metano de los residuos,
para el periodo considerado 1990-2010 consta de los siguientes pasos:
1. Aplicar para cada fuente de emisiones, el árbol de decisiones correspondiente, para
definir el método y nivel de exactitud a seguir para la estimación de las emisiones.
2. Revisar y establecer los parámetros requeridos por la metodología resultante en el
punto anterior.
3. Ordenar, clasificar y procesar la información requerida por la metodología
seleccionada.
4. Correr el modelo FOD y las hojas de cálculo de la metodología, obtener los
resultados para cada caso.
5. Determinar la incertidumbre de los resultados obtenidos, analizar y discutir los
mismos, y emitir las conclusiones y observaciones conducentes.
El método de descomposición de primer orden (FOD) propuesto por la metodología
2006, permite obtener resultados más exactos que no son comparables con el método
anterior de equilibrio de masas de la Metodología 1996.
7.4. Resultados
Las emisiones de GEI resultantes para cada año y residuo, se presentan en el Apéndice
A de este documento y se resumen en las tablas y figuras 7.4.1, 7.4.2, 7.4.3., 7.4.4
siguientes.
X-13
TABLA 7.4.1 Inventario de Emisiones de Gases de Efecto Invernadero
Generadas por el Sector Desechos 1990-2010
Año
Gg CH4/año
Gg CO2/año
Gg N2O/año
1990
708.1084
184.9070
4.7657
1991
704.5800
124.2350
4.9352
1992
716.1372
153.7076
5.1555
1993
939.0739
201.3032
5.4062
1994
955.2803
202.8678
5.5545
1995
967.0163
213.4069
5.6532
1996
999.1692
216.1672
5.7287
1997
1,004.7380
196.6708
5.8526
1998
1,024.3582
205.2763
5.9747
1999
1,111.1487
201.4586
6.1471
2000
1,180.7040
206.7541
6.3845
2001
1,233.5488
211.5280
6.5645
2002
1,329.5755
223.8249
6.6557
2003
1,391.7128
307.4194
6.6817
2004
1,469.9791
306.4266
6.7489
2005
1,518.7323
311.0182
6.8085
2006
1,646.8571
314.2673
6.9867
2007
1,709.3949
326.7970
7.1813
2008
1,793.2232
551.3437
7.1723
2009
1,870.3531
559.9259
7.1961
2010
1,967.9771
569.3569
7.2198
FIGURA 7.4.1
Emisiones de GEI del Sector Desechos
(1990-2010)
2,500.0000
1,500.0000
Emisiones de CH4
Emisiones de CO2
1,000.0000
Emisiones de N2O
500.0000
0.0000
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
Gg GEI/año
2,000.0000
X-14
TABLA 7.4.2 Emisiones de CH4 resultantes de las fuentes citadas
Año
Tratamiento
Biológico
Incineración
Incineración a
Cielo Abierto
Aguas
Residuales
Municipales
Aguas
Residuales
Industriales
Disposición
Final de Residuos
Sólidos
Emisiones
Totales
1990
4.88
0.00
12.14
188.01
181.34
317.00
708.11
1991
4.94
0.00
12.37
192.39
184.14
306.00
704.58
1992
5.01
0.00
15.37
206.59
186.43
298.00
716.14
1993
5.30
0.00
20.14
211.40
398.50
299.00
939.07
1994
5.38
0.00
20.29
219.70
401.17
304.00
955.28
1995
5.45
0.00
21.35
224.82
402.67
308.00
967.02
1996
5.49
0.013
21.57
246.19
404.17
317.00
999.17
1997
5.50
0.0455
19.51
249.51
380.44
345.00
1,004.74
1998
5.67
0.1170
20.10
254.74
362.99
376.00
1,024.36
1999
5.72
0.0975
19.79
258.18
374.62
448.00
1,111.15
2000
5.76
0.0975
20.32
261.61
380.18
508.00
1,180.70
2001
5.76
0.104
20.78
264.64
378.54
559.00
1,233.55
2002
6.10
0.4680
20.67
291.46
391.14
615.00
1,329.58
2003
6.17
0.539
21.09
294.84
398.34
666.00
1,391.71
2004
6.11
0.333
21.10
317.29
398.21
722.00
1,469.98
2005
6.14
0.461
21.61
320.97
390.82
774.00
1,518.73
2006
6.24
0.461
21.83
374.50
416.09
823.00
1,646.86
2007
6.34
0.461
23.04
380.86
421.96
872.00
1,709.39
2008
6.47
0.461
22.65
395.69
433.22
930.00
1,793.22
2009
6.95
0.461
23.01
402.41
439.78
993.00
1,870.35
2010
7.15
0.461
23.44
426.02
453.17
1053.00
1,967.98
FIGURA 7.4.2
Emisiones de CH4 del Sector Desechos
(1990-2010)
2500
Tratamiento Biológico
2000
Incineración a Cielo Abierto
1500
Aguas Residuales Municipales
1000
Aguas Residuales Industriales
Disposición Final de Residuos
Sólidos
500
Emisiones Totales
X-15
2010
2009
2008
2007
2006
2005
2004
2003
2002
2001
2000
1999
1998
1997
1996
1995
1994
1993
1992
1991
0
1990
Gg CH4/año
Incineración
TABLA 7.4.3 Emisiones de N2O resultantes de las fuentes citadas
Tratamiento
Incineración a Aguas Residuales Emisiones
Incineración
Biológico
Cielo Abierto
Municipales
Totales
Año
1990
0.4099
0
0.2803
4.0755
4.7657
1991
0.4099
0
0.2868
4.2385
4.9352
1992
0.4099
0
0.3548
4.3908
5.1555
1993
0.4099
0
0.4647
4.5316
5.4062
1994
0.4099
0
0.4683
4.6763
5.5545
1995
0.4099
0
0.4926
4.7507
5.6532
1996
0.4099
0.0001
0.4979
4.8208
5.7287
1997
0.4099
0.0004
0.4501
4.9922
5.8526
1998
0.4099
0.0009
0.4639
5.1000
5.9747
1999
0.4099
0.0008
0.4568
5.2796
6.1471
2000
0.4099
0.0008
0.469
5.5048
6.3845
2001
0.4099
0.0008
0.4795
5.6743
6.5645
2002
0.4099
0.0036
0.477
5.7652
6.6557
2003
0.4099
0.0042
0.4866
5.781
6.6817
2004
0.4099
0.0041
0.4869
5.848
6.7489
2005
0.4099
0.0036
0.4987
5.8963
6.8085
2006
0.4099
0.0036
0.5039
6.0693
6.9867
2007
0.4099
0.0036
0.5317
6.2361
7.1813
2008
0.4099
0.0036
0.5227
6.2361
7.1723
2009
0.4099
0.0036
0.5311
6.2515
7.1961
2010
0.4099
0.0036
0.5408
6.2655
7.2198
FIGURA 7.4.3
Emisiones de N2O del Sector Desechos
(1990-2010)
8
7
6
Gg N2O/año
5
Tratamiento Biológico
Incineración
4
Incineración a Cielo Abierto
Aguas Residuales Municipales
3
Total
2
1
0
X-16
TABLA 7.4.4 Emisiones de CO2 resultantes de las fuentes citadas
Año Incineración Incineración a Líquidos Emisiones
Cielo Abierto Fósiles
Totales
1990
0.0000
184.907
0.0000
184.9070
1991
0.0000
124.235
0.0000
124.2350
1992
0.0000
153.7076
0.0000
153.7076
1993
0.0000
201.3032
0.0000
201.3032
1994
0.0000
202.8678
0.0000
202.8678
1995
0.0000
213.4069
0.0000
213.4069
1996
0.4767
215.6905
0.0000
216.1672
1997
0.4797
195.0025
0.0000
195.4822
1998
4.2900
200.9863
0.0000
205.2763
1999
4.2900
197.8836
0.0000
202.1736
2000
3.8133
203.1791
0.0000
206.9924
2001
3.8133
207.7147
0.0000
211.5280
2002
17.1600
206.6649
0.0000
223.8249
2003
17.1600
287.6377
0.0000
304.7977
2004
19.5433
286.8833
0.0000
306.4266
2005
19.5433
294.0965
0.0000
313.6398
2006
16.9217
297.3456
0.0000
314.2673
2007
16.9217
309.8753
0.0000
326.7970
2008
10.2483
534.422
0.0000
544.6703
2009
10.2483
543.0042
0.0000
553.2525
2010
10.2483
552.4352
0.0000
562.6835
FIGURA 7.4.4
X-17
7.4.1 Observaciones
Los desechos sólidos municipales conservan la importancia de emisiones de GEI en el
sector desechos como la fuente con mayores emisiones, sobre todo por las emisiones de
CH4, generadas en los rellenos sanitarios y sitios controlados en nuestro país.
Siguiéndole en importancia de GEI las aguas residuales municipales y las aguas
residuales industriales, el tratamiento biológico de los desechos contribuye con valores
equivalentes a la mitad de las aguas residuales industriales. La incineración a cielo
abierto contribuye de manera significativa como emisor de CO2 no biogénico. El mayor
impacto de la metodología del PICC versión 2006, es que reduce en general las
emisiones de GEI del sector desechos significativamente, y hace dependiente al
inventario de los valores por defecto.
7.5. Discusión.
7.5.1 Eliminación de Desechos Sólidos
El método FOD propuesto por la metodología 2006, establece que los resultados no son
comparables con método anterior de equilibrio de masas de la Metodología 1996,
fundamentalmente porque éste último considera que las emisiones de CH4 serán
liberadas en el año considerado, afirmación que no sucede en la realidad, ya que los
desechos dependiendo de una serie de condiciones, tardan varios años en efectuar estas
emisiones hasta de 50 ó 60 años, razón por la cual el método FOD requiere de
información a partir de 1950. De acuerdo con la Metodología del PICC 2006, los
resultados correspondientes en este inventario tienen mayor exactitud, que los
considerados anteriormente, sin embargo no están exentos de la incertidumbre debida a
los datos de la actividad y a los propios factores de emisión propuestos por la
metodología. No obstante los resultados obtenidos con la metodología 2006 equivalen
al 35% en los años 90 y al 30% equiparando los resultados correspondientes a los años
1996 y 2006 para cada periodo.
7.5.2 Tratamiento Biológico de Desechos Sólidos
El tratamiento biológico de desechos sólidos en sus dos versiones, solo la aeróbica que
da lugar a la producción de composta es aplicable en nuestro país y contribuye con 7.15
Gg de CH4 al año 2010. No existe información y regulación oficial de esta actividad. La
contribución de este subsector es del 0.36% de las emisiones de CH4.
7.5.3 Incineración e Incineración Abierta de Desechos Sólidos
La incineración abierta considerada equivale a la disposición a cielo abierto en nuestro
país de los desechos sólidos efectuada en el medio rural. En el caso de los residuos
peligrosos hospitalarios también son incinerados en hornos regulados por la
SEMARNAT (Secretaría del Medio Ambiente y Recursos Naturales), pero su
contribución en materia de GEI es del 1.82 % en el caso de CO2, y del 1.9 en el caso del
N2O para el año 2010. De tal manera que la contribución de emisiones de GEI en este
sub sector proviene de la incineración abierta, con el 98.17 para el CO2 y el 0,8% para el
N2O, en el caso del CH4 este equivale al 1.19% en el año 2010.
X-18
7.5.4 Aguas Residuales Municipales
La incorporación en la metodología 2006 de factores de emisión y la aportación de las
fosas, sépticas, letrinas y canales de conducción a permitido en términos absolutos que
las emisiones de CH4 resulten de menor magnitud equivalentes al 65.63% de las
estimadas con la metodología anterior, y en términos relativos representan el 23.08%
para el año 2010 de las emisiones en este subsector. En tanto que el N2O, resulta su
contribución con el 86.85% para el mismo año en este sub sector. Por lo que las
emisiones de GEI con esta metodología también son menores a las estimadas en
inventarios previos.
7.5.5 Aguas Residuales Industriales
Los comentarios para el caso de las aguas residuales industriales van en el mismo
sentido, en este caso por el uso y mejora de factores de emisión que modifican la
aportación de los lodos separados de las aguas residuales industriales durante su
tratamiento, considerando un 30% para el tratamiento primerio y el 40% para el
secundario de la DBO estimado respectivamente. Por lo que las emisiones de CH4, se
reducen al 26.39% de las del año 2006, al compararlos con los resultados del inventario
anterior empleando la metodología versión 1996. Y contribuyen en este inventario, con
el 23.02% de las emisiones de CH4 en 2010.
7.6. Conclusiones y recomendaciones
Como se puede ver en la tabla 7.4.2 de la sección 7.4 de este inventario, las emisiones
de CH4 derivadas de los residuos sólidos municipales, las aguas residuales municipales
e industriales en el período considerado de 1990 a 2010, tuvieron un crecimiento en un
factor de 3.3 en el caso de los residuos sólidos, de 2.2 para las aguas residuales
municipales y en el caso de las aguas residuales industriales 2.5 en el período.
Esto dio por resultado que se tuvieran emisiones totales de CH4 de 708.11 Gg en 1990 a
1,967.98 Gg en el año 2010. En 1990 los residuos sólidos contribuyeron con 44.76% del
CH4 emitido, las aguas residuales municipales con el 26.55% y las aguas residuales
industriales con el 25.60%; en tanto que en el año 2010 los residuos sólidos
contribuyeron con el 53.50%, las aguas residuales municipales con el 21.64% y las
aguas residuales industriales con un 23.02% del CH4 emitido.
Comparando las emisiones de CH4 y CO2 para el año 2006, obtenidas con las
metodologías versiones 1996 y 2006, se puede observar una reducción de las emisiones
de CH4 a la tercera parte en relación a las determinadas con la metodología del PICC
1996. En tanto que las de CO2 se incrementaron, por la incorporación en la metodología
2006 del sub sector de incineración a cielo abierto.
Las aguas residuales municipales, aportan la mayor contribución de N2O con 4.2856 Gg
y 5.9253 Gg para 1990 y 2010 respectivamente. Alcanzando estas emisiones valores
totales de 4.6916 Gg y 6.5953 Gg de N2O para 1990 y 2010 respectivamente, debido a
la inclusión de las emisiones derivadas de la incineración a cielo abierto.
La metodología 2006 del PICC, permite obtener resultados con mayor exactitud e
incorporan sub sectores como el tratamiento biológico de los desechos, la incineración
X-19
abierta, la sistematización y factores de emisión para las letrinas, fosas sépticas y
canales de conducción de aguas residuales, así como la incorporación de las emisiones
derivadas de los desechos industriales y lodos residuales. En países desarrollados esto
no representa inconveniente alguno ya que llevan los inventarios de estos sectores en
sus archivos nacionales. En México estas actividades no están reguladas y por lo tanto
no existen información al respecto, lo ideal es que actividades se regulen y actualicen
sus bases de datos de acuerdo a la información solicitada por la metodología 2006.
Reconocimientos
Nuestro más sincero reconocimiento al Instituto Nacional de Ecología por el apoyo
brindado en la realización de este documento, y en particular por las gestiones
realizadas para obtener la información requerida para efectuar el presente inventario, y
al PNUD por el financiamiento para su realización. Así mismo nuestro agradecimiento a
la Secretaría del Medio Ambiente y Recursos Naturales, al Instituto Nacional de
Estadística Geografía e Informática, a la Comisión Nacional del Agua, a la Secretaría de
Desarrollo Social por la información proporcionada para la realización de este
inventario
y
al
Instituto
de
Investigaciones
Eléctricas.
X-20
Referencias
1. IPCC; “Revised 1996 IPCC Guidelines for National Greenhouse Gas Inventories”;
Reporting Instructions (Volume 1), Workbook (Volume 2), Reference Manual
(Volume 3).
2. IPCC; “Good Practice Guidance and Uncertainty Management in National
Greenhouse Gas Inventories”; This report was accepted by the IPCC Plenary at its
16th session hel in Montreal, 1-8 May, 2000.
3. Directrices del IPCC de 2006 para los inventarios nacionales e gases de efecto
invernadero; Grupo Intergubernamental de Expertos sobre el Cambio Climático;
Volumen 1 (Capítulo 3: Incertidumbre) y 5; Desechos; IGES/UNEP.
4. INEGI/SEMARNAP; “Estadísticas del Medio Ambiente”; México 1997.
5. INEGI; “Censos y Conteos 1990, 1995, 2000, 2005 y 2010”
6. COMISION NACIONAL DEL AGUA; “Situación del Subsector Agua Potable,
Alcantarillado y Saneamiento a Diciembre de 1994”, México, 1994, 1996, 1998,
2000 Y 2002.
7. COMISION NACIONAL DEL AGUA/SARH; “Informe 1989-1994”, México 1994.
8. INSTITUTO NACIONAL DE ECOLOGÍA; “Características Técnicas de los
Incineradores Autorizados para Residuos Peligrosos”; Dirección General de
Materiales, Residuos y Actividades Riesgosas; Dirección de Residuos Peligrosos;
México 2000.
9. INSTITUTO NACIONAL DE ECOLOGÍA; “Inventario Nacional de Gases de
Efecto Invernadero 1994-1998”; Parte 7; Emisiones de GEI de Desechos.
INE/SEMARNAT; Octubre 2000, México.
10. COMISION NACIONAL DEL AGUA; “Estadísticas del Agua 2004”, México.
11. COMISION NACIONAL DEL AGUA; “Estadísticas del Agua México”, 2004 y
2005.
12. SECRETARIA DE DESARROLLO SOCIAL; “Control de la Contaminación en
México”, Sedue, 1990.
13. David Gidi Alfredo Fuad, SEDUE, Memoria VII Congreso Nacional SMISAAC, Sep
1990.
14. Tejeda Patricia Uribe; “Residuos Sólidos Municipales”. Revista Solar/Vol. XVII,
Verano 1990. Asociación Nacional de Energía Solar. México.
X-21
Apéndice A
Tablas estándar de reporte del PICC
X-22
Inventario para 1990
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1990
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos1
RS Urbanos2
RS Urbanos3
RS Urbanos4
RS Urbanos5
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
47.1529
648.7270
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.1886
2.5949
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.1886
2.5949
9.6145
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM.Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
RSU Urbanos: Se refiere a la composta derivada de fracción orgánica de residuos sólidos Urbanos o Municipales.
Referencia: La Revista Solar 1990 Residuos Sólidos Municipales Patricia Tejeda Uribe Tabla 5
Plantas de Tratamiento de Residuos Sólidos Municiaples. Los números corresponden a: 1) DF, 2) Zapopan, 3) Tonalá, 4) Monterrey y 5) Oaxaca.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1990
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
DF
Zapopan
Tonalá
Monterrey
Oaxaca
247.5000
198.0000
132.0000
39.6000
66.0000
47.1529
648.7270
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
Total
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
NOTA: en el caso del tratamiento anaeróbico no existen plantas para este prpósito por lo que se considera que el tratamiento ocurre en el medio ambiente de
tal manera que el factor de emisión no tenga un valor de acuerdo al cuadro 4.1 de las Directrices PICC 2006.
Los Gg de N2O deben son el producto de las columnas A por B, no la diferencia como indica la hoja de cálculo.en el encabezado de la columna C.
Los Factores de emisión para el proceso de Composting de la columna B se refieren a base seca del los RSU.
X-23
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1990
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
0
0
0
0
0
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1990
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
81,249,645
MSW P
(kg waste/capita/day)
0.2100
Bf rac 1
(fraction)
0.7500
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
1868.3356
1,868.3356
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.21 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1990
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
1,868.3356
263.8090
37.1799
127.9810
843.9272
595.2517
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
2.070
4.048
174.191
3.231
1.367
184.907
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
X-24
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1990
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
OF
(fraction)
Lubricants
Solvents
Waste oil
Other (specify)
Total
Sector
Category
Category Code
Sheet
Type of Waste
0
Waste
Incineration and Open Burning of Waste 1990
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
2
Clinical waste
Sewage sludge
Other (specify)
Total
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1990
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
1,868.3356
6,500.0000
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-25
12.1442
12.1442
3
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1990
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
Type of Waste
B
Nitrous Oxide Emission Factor
C
Nitrous Oxide Emissions
(kg N2O/Gg Wet Waste) 1
(Gg N2O)
C= A x B x 10-6
Clinical waste
2
0
0
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1990
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
1,868.3356
150
Total
3
0.2803
0.2803
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1990
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
81,249,645
(I)
2
D
Organically degradable
material in wastewater
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
1,853,507,527
1,853,507,527
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1990
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar. Río,…
Pozo séptico
(kg CH4/kg BOD)
C=AxB
0.6
0.6
0.6
0.6
X-26
0.3
0.5
0.1
0.7
0.1800
0.3000
0.0600
0.4200
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
Waste
Domestic Wastewater Treatment and Discharge 1990
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
Urban
Planta Aeróbica
Lagu Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lagu Anaeróbica
Mar, río, lago
Pozo Séptico
(fraction)
0.287
0.287
0.287
0.287
0.713
0.713
0.713
0.713
0.058
0.024
0.831
0.087
0.058
0.024
0.831
0.087
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
1,853,507,527
1,853,507,527
1,853,507,527
1,853,507,527
1,853,507,527
1,853,507,527
1,853,507,527
1,853,507,527
(kg BOD/yr)
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
(CH4)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
648,727,634
0
0
0
0
0
0
0
0
0
0
0
5,553,628
3,830,088
26,523,359
19,437,696
8,968,044
9,515,166
65,892,526
48,289,469
188,009,976
Total
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1990
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
(W i)
(BODi)
(TOW i)
(kgBOD/m3)
(kgBOD/yr)
m3/año
Estimado de 2002
D=BxC
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
15,328,300
60,755,503
159,376
1,951,762
2.2160
1.0780
17.0580
2.2160
33,967,513
65,494,432
2,718,636
4,325,105
390,298
20,334,728
4,255,559
4.1160
0.6510
2.4610
1,606,467
13,237,908
10,472,931
508,852
2.2160
1,127,616
7,276,462
2.9550
21,501,945
1,378,266,000
2.0000
Total
2,756,532,000
Lácteos
Petrolera
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
2,910,984,552
Waste
Industrial Wastewater Treatment and Discharge 1990
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sin Tratamiento
D
Total organic degradable material in
wastewater for each industry sector
(m3/t)
product /yr)
No Tratada
C
Biochemical Oxygen
Demand
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
X-27
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 1990
4D2
Sector
Category
Category Code
Sheet
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Industrial sector
Units
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
*
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
Alimenticia
Primario
33,967,513
10,190,253.90
0.12
0
2,853,271
Ingenios Azucareros
Primario
65,494,432
19,648,329.60
0.18
0
8,252,298
Bebidas Alcohólicas
Secundario
2,718,636
1,087,454.40
0.18
0
293,613
Bebidas No Alcohólicas Secundario
Primario
Beneficio del Café
4,325,105
1,730,042.00
0.18
0
467,111
1,606,467
481,940.10
0.18
0
202,415
Celulosa y Papel
Primario
13,237,908
3,971,372.40
0.12
0
1,111,984
Cervecera
Primario
10,472,931
3,141,879.30
0.12
0
879,726
Lácteos
Secundario
1,127,616
451,046.40
0.12
0
81,188
Petrolera
Primario
21,501,945
6,450,583.50
0.12
0
1,806,163
No Tratada
Sin Tratamiento
2,756,532,000
0.00
0.06
0
165,391,920
181,339,691
Total
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1990
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption*
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
81,249,645
29.018
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.16
H
Total nitrogen in effluent
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
kg N/year)
0
H = (A x B x C x D x E) – F
518,694,484
518,694,484
1.1
1.25
Total
(NEFFLUENT)
*Martínez I. y Villezca P. 2005. La alimentación en México. Un estudio a partir de la
Encuesta Nacional de Ingresos y Gastos de los Hogares y de las hojas de Balance
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1990
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.571429
0
(kg N2O-N/year)
E= A x B x C – D
4,075,458
518,694,484
0.005
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-28
Inventario para 1991
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1991
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
47.74
663.83
10
10
10
10
10
4
4
E = (C - D)
2.475
1.98
1.32
0.396
0.66
0.1910
2.6553
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.1910
2.6553
9.6773
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1991
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
47.7390
663.8307
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
Total
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
NOTA: en el caso del tratamiento anaeróbico no existen plantas para este prpósito por lo que se considera que el tratamiento ocurre en el medio ambiente de
tal manera que el factor de emisión no tenga un valor de acuerdo al cuadro 4.1 de las Directrices PICC 2006.
Los Gg de N2O deben son el producto de las columnas A por B, no la diferencia como indica la hoja de cálculo.en el encabezado de la columna C.
Los Factores de emisión para el proceso de Composting de la columna B se refieren a base seca del los RSU.
X-29
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1991
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(g CH4/kg waste
treated)
(Gg)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
74.25
99
21.12
3.96
11.22
47.74
663.83
10
10
10
10
10
4
4
E = (C - D)
0.7425
0.99
0.2112
0.0396
0.1122
0.1910
2.6553
0
0
0
0
0
0
0
0.7425
0.9900
0.2112
0.0396
0.1122
0.1910
2.6553
4.9418
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1991
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaeróbica
Anaeróbica
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
74.2500
99.0000
21.1200
3.9600
11.2200
47.7390
663.8307
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.0446
0.0594
0.0127
0.0024
0.0067
0.0000
0.0000
0.1257
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
NOTA: en el caso del tratamiento anaeróbico no existen plantas para este prpósito por lo que se considera que el tratamiento ocurre en el medio ambiente de
tal manera que el factor de emisión no tenga un valor de acuerdo al cuadro 4.1 de las Directrices PICC 2006.
Los Gg de N2O deben son el producto de las columnas A por B, no la diferencia como indica la hoja de cálculo.en el encabezado de la columna C.
Los Factores de emisión para el proceso de Composting de la columna B se refieren a base seca del los RSU.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1991
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-30
0
0
0
0
0
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1991
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
Population
Fraction of Population
Per Capita Waste
Burning Waste
Generation
P
P f rac
(fraction)
(Capita)
República Mexicana
83,141,224
D
Fraction of the waste
amount burned relative
to the total amount of
waste treated
MSW P
(kg waste/capita/day)
0.2100
E
Number of days
by year
365
Bf rac 1
(fraction)
0.7500
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
1,911.8324
1,911.8324
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.21 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1991
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
1,911.8324
268.9948
28.4863
83.7383
1,001.8002
528.6217
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.6667
3.6667
3.6667
3.6667
3.6667
Total
2.1109
3.1017
113.9734
3.8349
1.2141
124.2350
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1991
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
OF
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
Lubricants
Solvents
Waste oil
Other (specify)
Total
X-31
0
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1991
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
2
Clinical waste
Sewage sludge
Other (specify)
Total
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1991
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
1,911.8324
6,500.0000
3
12.4269
12.4269
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1991
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste)
1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-32
0
0
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1991
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
1,911.8324
150.0000
Total
3
0.2868
0.2868
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1991
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
83,141,224
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
1,896,659,173
1,896,659,173
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1991
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar. Río,…
Pozo séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Urban
Planta Aeróbica
Lagu Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lagu Anaeróbica
Mar, río, lago
Pozo Séptico
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 1991
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
0.287
0.287
0.287
0.287
0.713
0.713
0.713
0.713
(fraction)
0.058
0.024
0.831
0.087
0.058
0.024
0.831
0.087
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
1,896,659,173
1,896,659,173
1,896,659,173
1,896,659,173
1,896,659,173
1,896,659,173
1,896,659,173
1,896,659,173
(kg BOD/yr)
0.1800
0.3000
0.0600
0.4200
F
Methane
recovered and
flared
(R)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
663,830,711
0
0
0
0
0
0
0
0
0
0
0
Total
X-33
G
Net methane emissions
5,682,922
3,919,257
27,140,851
19,890,227
9,176,830
9,736,690
67,426,575
49,413,699
192,387,050
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1991
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
(W i)
(BODi)
(TOW i)
(kgBOD/m3)
(kgBOD/yr)
m3/año
Estimado de 2002
D=BxC
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
15,518,854
61,510,785
161,357
1,976,025
2.2160
1.0780
17.0580
2.2160
34,389,780
66,308,626
2,752,428
4,378,871
395,150
20,587,519
4,308,462
4.1160
0.6510
2.4610
1,626,437
13,402,475
10,603,125
515,178
2.2160
1,141,634
7,366,919
2.9550
21,769,246
1,399,955,865
2.0000
Total
2,799,911,730
2,956,284,353
Lácteos
Petrolera
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 1991
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sin Tratamiento
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 1991
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
D
Total organic degradable material in
wastewater for each industry sector
(m3/t)
product /yr)
No Tratada
C
Biochemical Oxygen
Demand
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Sin Tratamiento
(kg BOD/yr)
Sheet 1 of 3
34,389,780
66,308,626
2,752,428
4,378,871
1,626,437
13,402,475
10,603,125
1,141,634
21,769,246
2,799,911,730
(Si)
(kg BOD/yr)
*
10,316,934.00
19,892,587.80
1,100,971.20
1,751,548.40
487,931.10
4,020,742.50
3,180,937.50
456,653.60
6,530,773.80
0.00
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.18
0.18
0.18
0.18
0.12
0.12
0.12
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-34
(kg CH4/yr)
E = [(A – B) x C] – D
2,888,742
8,354,887
297,262
472,918
204,931
1,125,808
890,663
82,198
1,828,617
167,994,704
184,140,728
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1991
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption*
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
83,141,224
29.4920
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
539,440,215.2058
539,440,215.2058
Waste
Domestic Wastewater Treatment and Discharge 1991
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,238,459.9897
539,440,215
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-35
Inventario para 1992
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1992
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
48.3317
679.2853
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.1933
2.7171
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.1933
2.7171
9.7415
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1992
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
48.3317
679.2853
0.6
0.6
0.6
0.6
0.6
0
0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-36
0
0
0
0
0
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1992
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
85,076,840
MSW P
(kg waste/capita/day)
0.2780
Bf rac 1
(fraction)
0.6850
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
2,365.3727
2,365.3727
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.278 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1992
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
2,365.3727
332.8079
35.2441
103.6033
1,239.4553
654.2621
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
2.6117
3.8376
141.0110
4.7446
1.5027
153.7076
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
OF
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
Lubricants
Solvents
Waste oil
Other (specify)
Total
X-37
0
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
Clinical waste
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0
0
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
2,365.3727
6,500.0000
Total
3
15.3749
15.3749
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
Total
2
0
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1992
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
2,365.3727
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-38
0.3548
0.3548
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1992
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
85,076,840
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
1,940,815,413
1,940,815,413
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1992
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbca
Laguna Anaeróbica
Mar, río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Urban
0.3000
0.5000
0.1000
0.7000
Waste
Domestic Wastewater Treatment and Discharge 1992
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
Planta Aeróbica
0.278
Laguna Anaeróbi
Mar, Río,..
Pozos sépticos
Planta Aeróbica
Laguna Anaeróbi
Mar, Río,..
Sistema Séptico
0.278
0.278
0.278
0.722
0.722
0.722
0.722
(kg CH4/kg
(fraction)
BOD)
Sheet 2 of 3
0.079
0.18
0.034
0.797
0.09
0.079
0.034
0.797
0.09
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
1,940,815,413
1,940,815,413
1,940,815,413
1,940,815,413
1,940,815,413
1,940,815,413
1,940,815,413
1,940,815,413
0.1800
0.3000
0.0600
0.4200
F
Methane
recovered and
flared
(R)
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
7,672,353.8581
0
0
679,285,395
0
0
0
0
0
0
0
0
0
0
5,503,376.1851
25,801,122.4678
20,394,864.6860
12,951,926.8546
14,292,941.0275
67,008,670.5819
52,967,957.9254
206,593,213.5863
Total
X-39
G
Net methane emissions
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1992
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/y)
(kgBOD/m3)
(kgBOD/yr)
D =B x C
15,711,508
62,274,391
163,360
2,000,556
400,056
20,843,095
4,361,948
521,574
7,458,374
1,417,343,066
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
34,816,702
67,131,793
2,786,595
4,433,232
1,646,630
13,568,855
10,734,754
1,155,808
22,039,495
2,834,686,132
2.0000
2,992,999,997
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 1992
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
0.6
0.6
0.6
0.6
No especificado
Sector
Category
Category Code
Sheet
Industrial sector
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 1992
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
(EFj)
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Sin Tratamiento
(kg BOD/yr)
Sheet 1 of 3
34,816,702
67,131,793
2,786,595
4,433,232
1,646,630
13,568,855
10,734,754
1,155,808
22,039,495
2,834,686,132
(Si)
(kg COD/yr)
10,445,010.60
20,139,537.90
1,114,638.00
1,773,292.80
493,989.00
4,070,656.50
3,220,426.20
462,323.20
6,611,848.50
0.00
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.18
0.18
0.18
0.18
0.12
0.12
0.12
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-40
(kg CH4/yr)
E = [(A – B) x C] – D
2,924,603
8,458,606
300,952
478,789
207,475
1,139,784
901,719
83,218
1,851,318
170,081,168
186,427,632
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1992
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
85,076,840
29.8570
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
558,830,626.6136
558,830,626.6136
Waste
Domestic Wastewater Treatment and Discharge 1992
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,390,813.2637
558,830,627
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-41
Inventario para 1993
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1993
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
104.9152
695.0998
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.4197
2.7804
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.4197
2.7804
10.0311
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1993
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
104.9152
695.0998
0.6
0.6
0.6
0.6
0.6
0
0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-42
0
0
0
0
0
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1993
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
87,057,520
MSW P
(kg waste/capita/day)
0.2780
Bf rac 1
(fraction)
0.8767
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,097.8112
3,097.8112
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.278 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1993
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,097.8112
435.8620
46.1574
135.6841
1,623.2531
856.8546
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.4204
5.0259
184.6751
6.2138
1.9680
201.3032
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
OF
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
Lubricants
Solvents
Waste oil
Other (specify)
Total
X-43
0
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
Clinical waste
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0
0
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,097.8112
6,500.0000
Total
3
20.1358
20.1358
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
Total
2
0
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1993
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,097.8112
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-44
0.4647
0.4647
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1993
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
87,057,520
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
1,985,999,675
1,985,999,675
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1993
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbca
Laguna Anaeróbica
Mar, río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 1993
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
(kg CH4/kg
(fraction)
BOD)
Sheet 2 of 3
0.079
0.18
Planta Aeróbica
0.278
Laguna Anaeróbi
Mar, Río,..
Pozos sépticos
Planta Aeróbica
0.278
0.278
0.278
0.722
0.034
0.797
0.09
0.079
Laguna Anaeróbi
0.722
Mar, Río,..
Sistema Séptico
0.722
0.722
(kg BOD/yr)
Sheet 1 of 3
1,985,999,675
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
(kg BOD/yr)
(kg CH4/yr)
G
Net methane emissions
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
7,850,974
0.3
0.06
0.42
0.18
1,985,999,675
1,985,999,675
1,985,999,675
1,985,999,675
0
0
695,099,886
0
0
0
0
5,631,501
26,401,800
20,869,679
13,253,462
0.034
0.3
1,985,999,675
0
0
14,625,696
0.797
0.09
0.06
0.42
1,985,999,675
1,985,999,675
0
0
0
0
68,568,704
54,201,109
211,402,925
Total
X-45
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1993
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/y)
(kgBOD/m3)
(kgBOD/yr)
D =B x C
34,105,467.96
135,180,993.51
354,611.74
2.2160
1.0780
17.0580
75,577,717
145,725,111
6,048,967
4,342,669.68
2.2160
9,623,356
868,413.51
4.1160
3,574,390
45,244,768.05
0.6510
29,454,344
Cervecera
9,468,618.45
2.4610
23,302,270
Lácteos
1,132,195.85
2.2160
2,508,946
Petrolera
16,190,128.26
2.9550
47,841,829
2.0000
6,153,343,070
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
3,076,671,535.00
No Tratada
6,497,000,000
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 1993
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
No Especificado
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
0.6
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 1993
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
(EFj)
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Sin Tratamiento
(kg BOD/yr)
Sheet 1 of 3
75,577,717
145,725,111
6,048,967
9,623,356
3,574,390
29,454,344
23,302,270
2,508,946
47,841,829
6,153,343,070
(Si)
(kg COD/yr)
22,673,315.10
43,717,533.30
2,419,586.80
3,849,342.40
1,072,317.00
8,836,303.20
6,990,681.00
1,003,578.40
14,352,548.70
0.00
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-46
(kg CH4/yr)
E = [(A – B) x C] – D
6,348,528
12,240,909
653,288
1,039,322
300,249
2,474,165
1,957,391
270,966
4,018,714
369,200,584
398,504,117
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1993
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
87,057,520
30.113
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.16
H
Total nitrogen in effluent
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
kg N/year)
0
H = (A x B x C x D x E) – F
576,743,882
576,743,882
1.1
1.25
Total
(NEFFLUENT)
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1993
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.571429
0
(kg N2O-N/year)
E= A x B x C – D
4,531,560
576,743,882
0.005
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-47
Inventario para 1994
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1994
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
110.21
711.2825
10
10
10
10
10
4
4
E = (C - D)
2.475
1.98
1.32
0.396
0.66
0.4408596
2.84513
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.4409
2.8451
10.1170
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1994
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
110.21
711.2825
0.6
0.6
0.6
0.6
0.6
0
0
Total
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
X-48
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1994
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
0
0
0
0
0
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1994
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
89,084,312
MSW P
(kg waste/capita/day)
0.2690
Bf rac 1
(fraction)
0.8923
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,121.8876
3,121.8876
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.269 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1994
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,121.8877
439.2496
46.5161
136.7387
1,635.8691
863.5141
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.4470
5.0649
186.1105
6.2621
1.9833
202.8678
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
X-49
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1994
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
OF
(fraction)
Lubricants
Solvents
Waste oil
Other (specify)
Total
Sector
Category
Category Code
Sheet
Type of Waste
0
Waste
Incineration and Open Burning of Waste 1194
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
2
Clinical waste
Total
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1994
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,121.8876
6,500.0000
Total
3
20.2923
20.2923
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1994
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-50
0
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1994
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,121.8876
150
Total
3
0.4683
0.4683
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1994
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
89,084,312
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
2,032,235,868
2,032,235,868
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1994
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.1
0.7
0.5
0.3
0.06
0.42
0.3
0.18
Waste
Domestic Wastewater Treatment and Discharge 1994
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.269
0.269
0.269
0.269
0.731
0.731
0.731
0.731
(fraction)
0.081
0.033
0.791
0.095
0.081
0.033
0.791
0.095
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,032,235,898
2,032,235,868
2,032,235,868
2,032,235,868
2,032,235,868
2,032,235,868
2,032,235,868
2,032,235,868
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
711,282,554
0
0
0
0
0
0
0
0
0
0
0
Total
X-51
G
Net methane emissions
7,970,470
5,412,047
25,945,027
21,812,191
14,078,694
14,707,088
70,504,887
59,274,020
219,704,424
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1994
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
(W i)
product /yr)
(m3/t
product )
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(CODi)
(TOW i)
(kgCOD/m3)
(kgCOD/yr)
D=AxBxC
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
34,232,504
135,684,516
355,933
4,358,845
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
871,648
45,413,296
9,503,887
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
1,136,413
Petrolera
16,250,433
3,088,131,509
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
6,521,200,000
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sin Tratamiento
Industrial sector
2.0000
Total
Waste
Industrial Wastewater Treatment and Discharge 1994
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
Sector
Category
Category Code
Sheet
75,859,228
146,267,908
6,071,498
9,659,201
3,587,703
29,564,056
23,389,066
2,518,292
48,020,030
6,176,263,018
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.01
0.12
0.18
0.06
0.006
Waste
Industrial Wastewater Treatment and Discharge 1994
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingemios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas
Secundario
Beneficio del Café
Secundario
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
Sin Tratamiento
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
75,859,228
146,267,908
6,071,498
9,659,201
3,587,703
29,564,056
23,389,066
2,518,292
48,020,030
6,176,263,018
22,757,768.40
0.12
0
6,372,175
43,880,372.40
0.12
0
12,286,504
2,428,599.20
0.18
0
655,722
3,863,680.40
0.18
0
1,043,194
1,435,081.20
0.18
0
387,472
8,869,216.80
0.12
0
2,483,381
7,016,719.80
0.12
0
1,964,682
755,487.60
0.12
0
211,537
19,208,012.00
0.18
0
5,186,163
0.00
0.06
0
370,575,781
401,166,610
Total
X-52
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1994
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
89,084,312
30.3680
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
595,168,725.0995
595,168,725.0995
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1994
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,676,326.9726
595,168,725
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-53
Inventario para 1995
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1995
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
110.6273
727.8419
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.4425
2.9114
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.4425
2.9114
10.1849
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1995
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
110.6273
727.8419
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
Total
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
X-54
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1995
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
G
Fossil CO2 Emissions
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
(Gg CO2)
G= A x B x C x D x E x F
Industrial solid waste
Hazardous waste
Clinical waste
Wheels (caucho)
1
0.5
0.65
0.16
0.56
0.275
0.4
0.56
0.17
0.275
0.25
0.17
1
1
1
1
3.6666667
3.6666667
3.6666667
3.6666667
Total
0
0
0
0
0
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1995
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
91,158,290
MSW P
(kg waste/capita/day)
0.2690
Bf rac 1
(fraction)
0.9173
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,284.0722
3,284.0722
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.269 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1995
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,284.0722
462.0690
48.9327
143.8424
1,720.8538
908.3744
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.6260
5.3281
195.7790
6.5874
2.0864
213.4069
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
X-55
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1995
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
Gg Waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
CL
(fraction)
D
Conversion Factor
E
Fossil CO2 Emissions
44/12
(Gg CO2)
E= A x B x C x D
OF
(fraction)
Lubricants
Solvents
Waste oil
Other (specify)
Total
Sector
Category
Category Code
Sheet
Type of Waste
0
Waste
Incineration and Open Burning of Waste 1195
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
2
Clinical waste
Total
0
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1995
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,284.0722
6,500.0000
Total
3
21.3465
21.3465
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1995
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-56
0
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1995
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,284.0722
150.0000
Total
3
0.4926
0.4926
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1995
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
91,158,290
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
2,079,548,491
2,079,548,491
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1995
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Urban
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
0.1
0.7
0.5
0.3
0.0600
0.4200
0.3000
0.1800
Waste
Domestic Wastewater Treatment and Discharge 1995
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
0.269
0.269
0.269
0.269
0.731
0.731
0.731
0.731
(fraction)
0.081
0.033
0.791
0.095
0.081
0.033
0.791
0.095
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,079,548,491
2,079,548,491
2,079,548,491
2,079,548,491
2,079,548,491
2,079,548,491
2,079,548,491
2,079,548,491
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
727,841,972
0
0
0
0
0
0
0
0
0
0
0
Total
X-57
G
Net methane emissions
8,156,031
5,538,046
26,549,055
22,320,002
14,406,461
15,049,484
72,146,316
60,653,983
224,819,378
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1995
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
(W i)
product /yr)
(m3/t
product )
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(CODi)
(TOW i)
(kgCOD/m3)
(kgCOD/yr)
D=AxBxC
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
34,360,590
136,192,199
357,264
4,375,155
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
874,909
45,583,217
9,539,447
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
1,140,665
Petrolera
16,311,237
3,099,668,880
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
(B0)
Primario
Secundario
Terciario
Sin Tratamiento
Industrial sector
2.0000
Total
6,545,565,374
Waste
Industrial Wastewater Treatment and Discharge 1995
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(MCFj)
(-)
(kg CH4/kg BOD)
Sector
Category
Category Code
Sheet
76,143,067
146,815,191
6,094,215
9,695,343
3,601,127
29,674,674
23,476,580
2,527,714
48,199,704
6,199,337,760
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 1995
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingemios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas
Secundario
Beneficio del Café
Secundario
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
Sin Tratamiento
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
76,143,067
146,815,191
6,094,215
9,695,343
3,601,127
29,674,674
23,476,580
2,527,714
48,199,704
6,199,337,760
22,842,920.10
0.12
0
6,396,018
44,044,557.30
0.12
0
12,332,476
2,437,686.00
0.18
0
658,175
3,878,137.20
0.18
0
1,047,097
1,440,450.80
0.18
0
388,922
8,902,402.20
0.12
0
2,492,673
7,042,974.00
0.12
0
1,972,033
758,314.20
0.12
0
212,328
19,279,881.60
0.18
0
5,205,568
0.00
0.06
0
371,960,266
402,665,555
Total
X-58
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1995
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
91,158,290
30.1490
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
604,632,882.7462
604,632,882.7462
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1995
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,750,688.2315
604,632,882.7462
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-59
Inventario para 1996
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1996
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
111.0397
737.6732
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.4442
2.9507
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.4442
2.9507
10.2259
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1996
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
(Gg N2O)
E = (C - D) x10- 3
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
247.5000
198.0000
132.0000
39.6000
66.0000
111.0397
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
Lodos ARM
737.6732
0.0000
C
Net Annual Nitrous Oxide Emissions
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
2.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6666667
0.4767
Total
0.4767
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-60
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1996
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
92,389,599
MSW P
(kg waste/capita/day)
0.262
Bf rac 1
(fraction)
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9392
0.4
365
Total
3,319.2145
3,319.2145
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.262 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1996
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,319.2145
467.0135
49.4563
145.3816
1,739.2684
918.0947
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.6648
5.3851
197.8740
6.6579
2.1087
215.6905
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Lubricants
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
44/12
1.0000
NOTA: Factores B y C tomados de los valores por defecto del Cuadro 2.4 de las Directrices PICC 2006.
X-61
D
Conversion Factor
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
2.0000
6500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.0130
0.013
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
NOTA: Factor B, valor por defecto tomado de la Página 5.22 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,319.2145
6,500.0000
Total
3
21.5749
21.5749
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste)
1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
2
50
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
NOTA: Factor B, valor por defecto tomado de la Página 5.22 de las Directrices del PICC 2006.
X-62
0.0001
0.0001
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 1996
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,319.2145
150.0000
Total
3
0.4979
0.4979
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
NOTA: Factor B, valor por defecto tomado de la Página 5.22 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
92,389,599
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,107,637,727.1875
2,107,637,727.1875
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.262
0.262
0.262
0.262
0.738
0.738
0.738
0.738
(fraction)
0.079
0.034
0.768
0.119
0.079
0.034
0.768
0.119
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,107,637,727
2,107,637,727
2,107,637,727
2,107,637,727
2,107,637,727
2,107,637,727
2,107,637,727
2,107,637,727
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
737,673,204
0
0
0
0
0
0
0
0
0
0
0
Total
X-63
G
Net methane emissions
7,852,299
5,632,451
25,445,426
27,599,010
14,376,901
15,865,454
71,674,520
77,740,723
246,186,785
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
(W i)
(BODi)
(TOW i)
(m3/ty)
(kgBOD/m3)
(kgDBO/yr)
2.216
1.078
17.058
2.216
4.116
0.651
2.461
2.216
2.955
34,488,675
136,699,881
358,596
4,391,464
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
878,171
45,753,137
9,575,007
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
1,144,917
Petrolera
16,372,040
3,111,240,878
No Tratada
D
Total organic degradable material in
wastewater for each industry sector
76,426,904.69
147,362,471.72
6,116,932.80
9,731,484.00
3,614,551.20
29,785,292.12
23,564,093.41
2,537,136.89
48,379,377.61
6,222,481,756.00
2
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
0.6
0.6
0.6
0.6
Sin Tratamiento
Sector
Category
Category Code
Sheet
Industrial sector
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Primario
Primario
Secundario
Bebidas No Alcohólicas Secundario
Secundario
Beneficio del Café
Ingemios Azucareros
Bebidas Alcohólicas
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
(EFj)
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
Units
Alimenticia
6,570,000,000
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
76,426,904.69
147,362,471.72
6,116,932.80
9,731,484.00
3,614,551.20
29,785,292.12
23,564,093.41
2,537,136.89
48,379,377.61
6,222,481,756.00
22,928,071
0.12
0
6,419,860
44,208,742
2,446,773
3,892,594
0.12
0.18
0.18
0
0
0
12,378,448
660,629
1,051,000
1,445,820
0.18
0
390,372
8,935,588
0.12
0
2,501,965
7,069,228
0.12
0
1,979,384
761,141
0.12
0
213,119
19,351,751
0.18
0
5,224,973
0
0.06
0
373,348,905
404,168,654.19
Total
X-64
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
92,389,599
30.5140
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
620,218,769.2549
620,218,769.2549
*Martínez I. y Villezca P. 2005. La alimentación en México. Un estudio a partir de la
Encuesta Nacional de Ingresos y Gastos de los Hogares y de las hojas de Balance
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,873,148.8018
620,218,769.2549
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-65
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
20,077
6,500
Total
3
65
65
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1996
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Hazardous waste
Clinical waste
Sector
Category
Category Code
Sheet
Type of Waste
71
2
50
50
Total
Waste
Incineration and Open Burning of Waste 1996
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
2
0.00355
0.0001
0.00365
20,077
150
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-66
1.5058
1.5058
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
93,130,089
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
2,124,530,155
2,124,530,155
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
(kg CH4/kg BOD)
C=AxB
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
0.6
0.6
0.6
0.3
0.5
0.1
0.18
0.3
0.06
Pozo Séptico
0.6
0.7
0.42
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Rural
Urban
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
0.262
0.262
0.262
0.262
0.738
0.738
0.738
0.738
(fraction)
0.079
0.034
0.768
0.119
0.079
0.034
0.768
0.119
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,124,530,155
2,124,530,155
2,124,530,155
2,124,530,155
2,124,530,155
2,124,530,155
2,124,530,155
2,124,530,155
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
1,062,265,078
0
0
0
0
0
0
0
0
0
0
0
Total
X-67
G
Net methane emissions
7,915,235
5,677,594
25,649,368
27,820,212
11,147,792
15,992,613
72,248,982
78,363,805
244,815,601
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
Servicios
Química
Celulosa y papel
Agropecuaria
Alimenticia
Cerveza y Malta
Hierro y acero
Textil
Destilería y Vitivinicultura
Beneficio de café
Curtiduría
Otros Giros
Type of treatment or
discharge
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/ty)
(kgBOD/m3)
(kgDBO/yr)
630,720,000
2,044,478,880
196,784,640
86,724,000
423,213,120
142,227,360
21,759,840
39,104,640
42,888,960
143,173,440
91,769,760
946,080
48,565,440
1,261,440
1,746,463,680
Acuacultura
Azúcar
Petrolera
Sector
Category
Category Code
Sheet
STEP 1
B
Wastewater
generated
1,892,160
2,576,043,389
871,755,955
34,689,600
698,301,648
93,870,058
227,825,525
55,919,635
160,833,600
177,535,066
70,662,715
8,628,250
108,786,586
4,200,595
2,008,433,232
0.003
1.26
4.43
0.4
1.65
0.66
10.47
1.43
3.75
1.24
0.77
9.12
2.24
3.33
1.15
Total
7,099,378,013
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
(EFj)
Primario
Secundario
Terciario
No especificado
0.6
0.6
0.6
0.6
0.2
0.3
0.1
0.3
(kg CH4/kg BOD)
C=AxB
0.12
0.18
0.06
0.18
Sin Tratamiento
0.6
0.1
0.06
X-68
Waste
Industrial Wastewater Treatment and Discharge 1996
4D2
Sector
Category
Category Code
Sheet
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Industrial sector
Units
Acuacultura
Azúcar
Petrolera
Servicios
Química
Celulosa y papel
Agropecuaria
Alimenticia
Cerveza y Malta
Hierro y acero
Textil
Destilería y Vitivinicultura
Beneficio de café
Curtiduría
Otros Giros
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
1,892,160
2,576,043,389
871,755,955
34,689,600
698,301,648
93,870,058
227,825,525
55,919,635
160,833,600
177,535,066
70,662,715
8,628,250
108,786,586
4,200,595
2,008,433,232
Primario
Primario
Secundario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Primario
Primario
Primario
Terciario
Primario
1,712,026
0.12
0
21,616
2,330,804,058
804,325,632
32,006,359
0.12
0.18
0.18
0
0
0
29,428,720
12,137,458
482,983
644,288,016
0.18
0
9,722,454
84,933,628
0.12
0
1,072,372
206,136,535
0.12
0
2,602,679
50,596,086
0.12
0
638,826
145,522,241
0.18
0
2,756,045
160,633,728
0.12
0
2,028,161
63,935,625
0.12
0
807,251
7,806,841
0.12
0
98,569
98,430,103
0.12
0
1,242,778
3,875,679
0.06
0
19,495
1,817,230,388
0.12
0
22,944,341
86,003,746.58
Total
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
92,389,599
30.1860
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
613,551,935.7911
613,551,935.7911
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1996
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,820,766.5245
613,551,935.7911
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-69
Inventario para 1997
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1997
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
104.5192
747.6372
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.4181
2.9905
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.4181
2.9905
10.2396
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1997
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
104.5192
747.6372
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1997
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
7.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6666667
1.6683
Total
1.6683
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-70
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1997
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
93,637,539
MSW P
(kg waste/capita/day)
0.2620
Bf rac 1
(fraction)
0.8378
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,000.8514
3,000.8514
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.262 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1997
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,000.8514
422.2198
44.7127
131.4373
1,572.4461
830.0355
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.3133
4.8686
178.8949
6.0193
1.9064
195.0025
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
NOTA: los valores de las columnas G,H,IJ y K fueron tomados de los cuadros 2.4 y 5.2 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1997
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Lubricants
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0
OF
(fraction)
0.8
44/12
1
NOTA: Factores B y C tomados de los valores por defecto del Cuadro 2.4 de las Directrices PICC 2006.
X-71
D
Conversion Factor
3.666666667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1997
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
7.0000
6500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.0455
0.0455
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
NOTA: Factor B, valor por defecto tomado de la Página 5.22 de las Directrices del PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1997
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,000.8514
6,500.0000
Total
3
19.5055
19.5055
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1997
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste)
1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
7
50
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
NOTA: Factor B, valor por defecto tomado de la Página 5.22 de las Directrices del PICC 2006.
X-72
0.0004
0.0004
2
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1997
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
93,637,539
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
2,136,106,358
2,136,106,358
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1997
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 1997
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.262
0.262
0.262
0.262
0.738
0.738
0.738
0.738
(fraction)
0.079
0.034
0.768
0.119
0.079
0.034
0.768
0.119
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,136,106,358
2,136,106,358
2,136,106,358
2,136,106,358
2,136,106,358
2,136,106,358
2,136,106,358
2,136,106,358
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
747,637,225
0
0
0
0
0
0
0
0
0
0
0
Total
X-73
G
Net methane emissions
7,958,363
5,708,531
25,789,127
27,971,800
14,571,095
16,079,754
72,642,654
78,790,796
249,512,120
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1997
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
(W i)
(BODi)
(TOW i)
(m3/ty)
(kgBOD/m3)
(kgDBO/yr)
630,720,000
2,044,478,880
196,784,640
86,724,000
423,213,120
142,227,360
21,759,840
39,104,640
42,888,960
2,913,974,395
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
(B0)
Primario
Secundario
Terciario
Industrial sector
71,939,005
138,709,132
5,757,738
9,160,037
3,402,299
28,036,256
22,180,375
2,388,153
45,538,470
5,857,088,534
2.01
Total
6,184,199,999
(MCFj)
(-)
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 1997
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
2.216
1.078
17.058
2.216
4.116
0.651
2.461
2.216
2.955
Waste
Industrial Wastewater Treatment and Discharge 1997
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(kg CH4/kg BOD)
Sector
Category
Category Code
Sheet
D
Total organic degradable material in
wastewater for each industry sector
Primario
Primario
Secundario
Bebidas No Alcohólicas Secundario
Secundario
Beneficio del Café
Ingemios Azucareros
Bebidas Alcohólicas
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
71,939,005
138,709,132
5,757,738
9,160,037
3,402,299
28,036,256
22,180,375
2,388,153
45,538,470
5,857,088,534
21,581,702
0.12
0
6,042,876
41,612,740
2,303,095
3,664,015
0.12
0.18
0.18
0
0
0
11,651,567
621,836
989,284
1,360,920
0.18
0
367,448
8,410,877
0.12
0
2,355,046
6,654,113
0.12
0
1,863,152
716,446
0.12
0
200,605
18,215,388
0.18
0
4,918,155
0
0.06
0
351,425,312
380,435,280.16
Total
X-74
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1997
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
93,637,539
30.843
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
H
Total nitrogen in effluent
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
kg N/year)
0.0000
H = (A x B x C x D x E) – F
635,373,775.3829
1.1000
1.2500
(NEFFLUENT)
Total
635,373,775.3829
Alimenticio de la FAO. Ciencia UANL, abril-junio, Año/Vol. VIII, número 2, pp.196-208.
NOTA: Factores de emisión tomados de cuadro 6.11
Sector
Category
Category Code
Sheet
República Mexicana
Waste
Domestic Wastewater Treatment and Discharge 1997
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
4,992,223.8824
635,373,775
0.0050
NOTA: valor por defecto tomado de cuadro 6.11 de las Directrices del PICC 2006.
X-75
Inventario para 1998
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1998
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
0
0
0
0
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.5447
Urbanos
Urbanos
Urbanos
Urbanos
247.5000
198.0000
132.0000
39.6000
10
10
10
10
C= (A x B) x10-3
2.475
1.98
1.32
0.396
RS Urbanos
Lodos ARI
66.0000
136.1712
10
4
0.66
0.5447
0
0
Lodos ARM
757.7358
4
3.0309432
0
RS
RS
RS
RS
Total
3.0309
10.4066
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1998
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
136.1712
757.7358
0.6
0.6
0.6
0.6
0.6
0.0
0.0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
18
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.65
0.4
0.25
1
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6666667
4.2900
Total
4.2900
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-76
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1998
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
94,902,336
MSW P
(kg waste/capita/day)
0.2620
Bf rac 1
(fraction)
0.8518
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,092.2079
3,092.2079
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
Sector
Waste
Category
Incineration and Open Burning of Waste 1998
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,092.9339
435.1758
46.0847
135.4705
1,620.6974
855.5055
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.4150
5.0179
184.3844
6.2040
1.9649
200.9863
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-77
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
18
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.1170
0.1170
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,092.9339
6,500.0000
Total
3
20.1041
20.1041
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
18
50
Total
2
0.0009
0.0009
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1998
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,093
150
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-78
0.4639
0.4639
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1998
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
94,902,336
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.25
1.25
Total
2,164,959,540
2,164,959,540
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1998
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 1998
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.258
0.258
0.258
0.258
0.72
0.72
0.72
0.72
(fraction)
0.089
0.044
0.747
0.12
0.089
0.044
0.747
0.12
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,164,959,540
2,164,959,540
2,164,959,540
2,164,959,540
2,164,959,540
2,164,959,540
2,164,959,540
2,164,959,540
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
757,735,839
0
0
0
0
0
0
0
0
0
0
0
Total
X-79
G
Net methane emissions
8,948,124
7,372,986
25,034,640
28,151,402
16,231,481
20,575,775
69,864,110
78,562,052
254,740,570
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1998
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/y)
(kgBOD/m3)
(kgBOD/yr)
D=BxC
Bebidas No Alcohólicas
999,060
51,966,283
10,884,020
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
1,306,852
Petrolera
18,597,410
2,713,227,386
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Primario
Secundario
Terciario
Industrial sector
2.00
Total
5,820,999,997
(MCFj)
(-)
(kg CH4/kg BOD)
Sector
Category
Category Code
Sheet
86,822,904
167,416,436
6,950,197
11,047,926
4,112,131
33,830,050
26,785,573
2,895,984
54,955,347
5,426,183,449
Waste
Industrial Wastewater Treatment and Discharge 1998
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 1998
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingemios Azucareros
Secundario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Primario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
2.216
1.078
17.058
2.216
4.116
0.651
2.461
2.216
2.955
39,180,011
155,302,816
407,445
4,985,526
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
86,822,904
167,416,436
6,950,197
11,047,926
4,112,131
33,830,050
26,785,573
2,895,984
54,955,347
5,426,183,449
26,046,871
0.12
0
7,293,124
66,966,574
0.18
0
18,080,975
2,780,079
0.18
0
750,621
3,314,378
0.12
0
928,026
1,233,639
0.12
0
345,419
10,149,015
0.12
0
2,841,724
8,035,672
0.12
0
2,249,988
1,158,394
0.18
0
312,766
16,486,604
0.12
0
4,616,249
0
0.06
0
325,571,007
362,989,900
Total
X-80
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1998
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
94,902,336
31.1710
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
650,804,157.4003
650,804,157.4003
Waste
Domestic Wastewater Treatment and Discharge 1998
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,113,462.6313
650,804,157
0.0050
X-81
Inventario para 1999
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 1999
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
E = (C - D)
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
247.5000
198.0000
132.0000
39.6000
66.0000
138.1905
10
10
10
10
10
4
2.4750
1.9800
1.3200
0.3960
0.6600
0.5528
0
0
0
0
0
0
Lodos ARM
767.9708
4
3.0719
0
2.4750
1.9800
1.3200
0.3960
0.6600
0.5528
Total
3.0719
10.4556
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 1999
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
138.1905
767.9708
0.6
0.6
0.6
0.6
0.6
0.0
0.0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
15.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6666667
3.5750
Total
3.5750
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-82
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 1999
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
96,184,216
MSW P
(kg waste/capita/day)
0.2580
Bf rac 1
(fraction)
0.8405
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,045.1879
3,045.1879
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.258 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 1999
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
(Gg CO2)
4
3,045.1879
428.4579
45.3733
133.3792
1,595.6785
842.2990
L
Fossil CO2 Emissions
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.3623
4.9405
181.5380
6.1083
1.9346
197.8836
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Fuente: El manejo de los residos peligrosos en los Estados Fronterizos de México-Estados Unidos: más preguntas que respuestas: Texas Center for Policy Studies,
Austin Texas/RMALC/La Neta-Proyecto Emisiones: Espacio Virtual Ciudad de México, D.F. Actualizado en febrero , 2000 segunda versión pp 49.
X-83
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
15
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.0975
0.0975
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,045
6,500
Total
3
19.7937
19.7937
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
15
50
Total
2
0.0008
0.0008
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 1999
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,045
150
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-84
0.4568
0.4568
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 1999
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
96,184,216
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,194,202,427.5000
2,194,202,427.5000
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 1999
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 1999
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.258
0.258
0.258
0.258
0.72
0.72
0.72
0.72
(fraction)
0.089
0.044
0.747
0.12
0.089
0.044
0.747
0.12
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,194,202,427
2,194,202,427
2,194,202,427
2,194,202,427
2,194,202,427
2,194,202,427
2,194,202,427
2,194,202,427
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
767,970,849
0
0
0
0
0
0
0
0
0
0
0
Total
X-85
G
Net methane emissions
9,068,990
7,472,576
25,372,791
28,531,653
16,450,726
20,853,700
70,807,790
79,623,218
258,181,443
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 1999
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/y)
(kgBOD/m3)
(kgBOD/yr)
D=BxC
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
39,051,552
155,536,030
422,765
4,881,444
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
1,022,041
51,695,484
10,988,704
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
1,355,957
Petrolera
18,506,721
2,793,695,532
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
6,009,600,008
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Industrial sector
2.0098
Total
Waste
Industrial Wastewater Treatment and Discharge 1999
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
Sector
Category
Category Code
Sheet
86,538,239
167,667,840
7,211,525
10,817,280
4,206,721
33,653,760
27,043,201
3,004,801
54,687,361
5,614,769,280
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 1999
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingemios Azucareros
Secundario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Primario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
86,538,239
167,667,840
7,211,525
10,817,280
4,206,721
33,653,760
27,043,201
3,004,801
54,687,361
5,614,769,280
30,288,384
0.12
0
6,749,983
58,683,744
0.18
0
19,617,137
2,524,034
0.18
0
843,748
3,786,048
0.12
0
843,748
1,472,352
0.12
0
328,124
11,778,816
0.12
0
2,624,993
9,465,120
0.12
0
2,109,370
1,051,680
0.18
0
351,562
19,140,576
0.12
0
4,265,614
0
0.06
0
336,886,157
374,620,436
Total
X-86
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 1999
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
96,184,216
31.7550
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
671,952,551.3976
671,952,551.3976
Waste
Domestic Wastewater Treatment and Discharge 1999
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,279,628.6295
671,952,551.3976
0.0050
X-87
Inventario para 2000
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2000
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARII
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
138.1857
778.3441
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.5527
3.1134
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.5527
3.1134
10.4971
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2000
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
138.1857
778.3441
0.6
0.6
0.6
0.6
0.6
0
0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
15.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
3.5750
Total
3.5750
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-88
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2000
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
97,483,412
MSW P
(kg waste/capita/day)
0.2540
Bf rac 1
(fraction)
0.8649
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,126.6782
3,126.6782
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.254 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2000
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,126.6782
439.9236
46.5875
136.9485
1,638.3794
864.8392
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.4523
5.0727
186.3960
6.2717
1.9864
203.1791
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-89
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
15
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.0975
0.0975
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,126.6782
6,500.0000
Total
3
20.3234
20.3234
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
15
50
Total
2
0.00075
0.0008
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2000
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,126.6782
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-90
0.4690
0.4690
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2000
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
97,483,412
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,223,840,336.2500
2,223,840,336.2500
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2000
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 2000
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.254
0.254
0.254
0.254
0.746
0.746
0.746
0.746
(fraction)
0.109
0.036
0.741
0.114
0.109
0.036
0.741
0.114
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,223,840,336
2,223,840,336
2,223,840,336
2,223,840,336
2,223,840,336
2,223,840,336
2,223,840,336
2,223,840,336
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
778,344,118
0
0
0
0
0
0
0
0
0
0
Total
X-91
G
Net methane emissions
11,082,464
6,100,439
25,113,473
27,045,279
21,157,034
17,917,037
73,758,468
79,432,197
261,606,390
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2000
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/yr)
(kgBOD/m3)
(kgBOD/yr)
D=BxC
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
39,180,011.04
155,302,816.32
407,445.12
4,985,526.24
999,060.48
51,966,282.24
10,884,019.68
1,306,851.84
18,597,409.92
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
2,904,886,969
1.9999
Total
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sin Tratamiento
Industrial sector
6,204,300,000
Waste
Industrial Wastewater Treatment and Discharge 2000
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
Sector
Category
Category Code
Sheet
86,822,904
167,416,436
6,950,199
11,047,926
4,112,133
33,830,050
26,785,572
2,895,984
54,955,346
5,809,483,449
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 2000
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
Sin Tratamiento
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
86,822,904
167,416,436
6,950,199
11,047,926
4,112,133
33,830,050
26,785,572
2,895,984
54,955,346
5,809,483,449
30,388,016
0.12
0
6,772,187
58,595,753
0.12
0
13,058,482
2,432,570
0.18
0
813,173
3,866,774
0.18
0
1,292,607
1,439,247
0.12
0
320,746
11,840,518
0.12
0
2,638,744
9,374,950
0.12
0
2,089,275
1,013,594
0.18
0
338,830
19,234,371
0.12
0
4,286,517
0
0.06
0
348,569,007
380,179,568
Total
X-92
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2000
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
97,483,412
32.6680
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
700,609,382.7075
700,609,382.7075
Waste
Domestic Wastewater Treatment and Discharge 2000
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,504,789.5083
700,609,382.7075
0.0050
X-93
Inventario para 2001
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2001
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARII
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
128.0112
787.3625
10
10
10
10
10
4
4
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.5120
3.1495
0
0
0
0
0
0
0
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.5120
3.1495
10.4925
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2001
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
128.0112
787.3625
0.6
0.6
0.6
0.6
0.6
0
0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
16.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
3.8133
Total
3.8133
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-94
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2001
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
98,621,927
MSW P
(kg waste/capita/day)
0.2540
Bf rac 1
(fraction)
0.8740
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,196.4763
3,196.4763
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.254 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2001
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,196.4763
449.7442
47.6275
140.0057
1,674.9536
884.1453
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.01
0.16
0.8
0.03
0.03
0.58
0.58
0.58
0.58
0.58
3.66666667
3.66666667
3.66666667
3.66666667
3.66666667
Total
3.5293
5.1859
190.5570
6.4117
2.0307
207.7147
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-95
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
16
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.104
0.104
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,196.4763
6,500.0000
Total
3
20.7771
20.7771
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
16
50
Total
2
0.0008
0.0008
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2001
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,196.4763
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-96
0.4795
0.4795
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2001
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
98,612,927
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,249,607,397.1875
2,249,607,397.1875
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2001
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 2001
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.254
0.254
0.254
0.254
0.746
0.746
0.746
0.746
(fraction)
0.109
0.036
0.741
0.114
0.109
0.036
0.741
0.114
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,249,607,397
2,249,607,397
2,249,607,397
2,249,607,397
2,249,607,397
2,249,607,397
2,249,607,397
2,249,607,397
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
787,362,589
0
0
0
0
0
0
0
0
0
0
Total
X-97
G
Net methane emissions
11,210,873
6,171,123
25,404,456
27,358,645
21,402,175
18,124,637
74,613,088
80,352,557
264,637,556
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2001
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/yr)
(kgBOD/m3)
(kgBOD/yr)
D=BxC
46,601,062.56
155,253,620.16
1,069,385.76
3,798,826.56
880,169.76
50,017,672.80
9,627,940.80
1,324,827.36
1,908,874.08
2,482,283,941.00
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
2.3423
Total
6,180,000,000
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Industrial sector
103,267,955
167,363,403
18,241,582
8,418,200
3,622,779
32,561,505
23,694,362
2,935,817
5,640,723
5,814,253,675
Waste
Industrial Wastewater Treatment and Discharge 2001
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
Sector
Category
Category Code
Sheet
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2001
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
103,267,955
167,363,403
18,241,582
8,418,200
3,622,779
32,561,505
23,694,362
2,935,817
5,640,723
5,814,253,675
36,143,784
0.12
0
8,054,900
58,577,191
0.12
0
13,054,345
6,384,554
0.18
0
2,134,265
2,946,370
0.18
0
984,929
1,267,973
0.12
0
282,577
11,396,527
0.12
0
2,539,797
8,293,027
0.12
0
1,848,160
1,027,536
0.18
0
343,491
1,974,253
0.12
0
439,976
0
0.06
0
348,855,221
378,537,662
Total
X-98
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2001
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
98,612,927
33.2880
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
722,177,965.0747
722,177,965.0747
Waste
Domestic Wastewater Treatment and Discharge 2001
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,674,256.9874
722,177,965.0747
0.0050
X-99
Inventario para 2002
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2002
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
E = (C - D)
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
247.5000
198.0000
132.0000
39.6000
66.0000
203.4698
10
10
10
10
10
4
2.475
1.98
1.32
0.396
0.66
0.8138792
0
0
0
0
0
0
Lodos ARM
796.4855
4
3.185942
0
2.4750
1.9800
1.3200
0.3960
0.6600
0.8139
Total
3.1859
10.8308
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2002
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
203.4698
796.4855
0.6
0.6
0.6
0.6
0.6
0
0
Total
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
X-100
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2002
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
Clinical waste
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
72.0000
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
17.1600
Total
17.1600
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2002
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
99,755,530
MSW P
(kg waste/capita/day)
0.2480
Bf rac 1
(fraction)
0.8805
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,180.3204
3,180.3204
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
Sector
Waste
Category
Incineration and Open Burning of Waste 2002
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,180.3204
447.4711
47.3868
139.2980
1,666.4879
879.6766
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.5115
5.1597
189.5939
6.3793
2.0204
206.6649
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2002
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-101
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Clinical waste
Waste
Incineration and Open Burning of Waste 2002
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
72.0000
6,500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.4680
0.4680
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2002
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,180
6,500.0000
Total
3
20.6721
20.6721
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2002
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
72.0000
50.0000
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-102
0.0036
0.0036
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2002
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,180
150.0000
Total
3
0.4770
0.4770
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2002
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
99,755,530
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,275,673,028.1250
2,275,673,028.1250
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2002
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2002
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, Río,…
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, Río,…
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.248
0.248
0.248
0.248
0.752
0.752
0.752
0.752
(fraction)
0.136
0.049
0.686
0.129
0.136
0.049
0.686
0.129
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,275,673,028
2,275,673,028
2,275,673,028
2,275,673,028
2,275,673,028
2,275,673,028
2,275,673,028
2,275,673,028
(kg BOD/yr)
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
796,485,560
0
0
0
0
0
0
0
0
0
0
0
Total
X-103
(CH4)
13,815,702
8,296,194
23,229,342
30,577,399
27,230,303
25,156,200
70,437,360
92,718,565
291,461,065
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2002
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
C
Chemical Oxygen
Demand
(W i)
(m3/t
product /yr)
product )
D
Total organic degradable material in
wastewater for each industry sector
(CODi)
(TOW i)
(kgCOD/m3)
(kgCOD/yr)
m3/year
D=BxC
39,460,996.80
234,291,981.60
1,324,196.64
3,698,857.44
1,009,152.00
48,257,333.28
10,489,504.32
1,324,827.36
49,484,083.68
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
2.424
2,329,025,459
No Tratada
87,445,569
252,566,756
22,588,146
8,196,668
4,153,670
31,415,524
25,814,670
2,935,817
146,225,467
5,645,557,713
6,226,900,000
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2002
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2002
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Secundario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
87,445,569
252,566,756
22,588,146
8,196,668
4,153,670
31,415,524
25,814,670
2,935,817
146,225,467
5,645,557,713
30,605,949
0.12
0
6,820,754
88,398,365
0.12
0
19,700,207
7,905,851
0.18
0
2,642,813
2,868,834
0.18
0
959,010
1,453,785
0.18
0
485,979
10,995,433
0.12
0
2,450,411
9,035,135
0.12
0
2,013,544
1,027,536
0.12
0
228,994
51,178,913
0.18
0
17,108,380
0
0.06
0
338,733,463
391,143,555
Total
X-104
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2002
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
99,755,530
33.4340
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
733,749,805.8044
733,749,805.8044
Waste
Domestic Wastewater Treatment and Discharge 2002
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,765,178.6179
733,749,805.8044
0.0050
X-105
Inventario para 2003
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2003
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
E = (C - D)
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
247.5000
198.0000
132.0000
39.6000
66.0000
213.4052
10
10
10
10
10
4
2.475
1.98
1.32
0.396
0.66
0.8536208
0
0
0
0
0
0
Lodos ARM
805.7142
4
3.2228568
0
2.4750
1.9800
1.3200
0.3960
0.6600
0.8536
Total
3.2229
10.9075
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2003
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
213.4052
805.7142
0.6
0.6
0.6
0.6
0.6
0
0
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2003
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
74.2500
99.0000
21.1200
3.9600
11.2200
213.4052
805.7142
0.6
0.6
0.6
0.6
0.6
0
0
Total
0.0446
0.0594
0.0127
0.0024
0.0067
0.0000
0.0000
0.1257
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
X-106
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2003
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
Clinical waste
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
83.0000
0.6500
0.4000
0.2500
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
19.7817
Total
19.7817
1.0000
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2003
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
100,911,372
MSW P
(kg waste/capita/day)
0.2480
Bf rac 1
(fraction)
0.8879
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,244.2081
3,244.2081
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.248 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2003
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,244.2081
483.3870
48.9875
198.5455
1,635.4053
877.8827
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.7933
5.3340
270.2337
6.2603
2.0163
287.6377
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-107
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2003
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Clinical waste
D
Conversion Factor
OF
(fraction)
0.8000
E
Fossil CO2 Emissions
44/12
1.0000
3.6667
Total
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Waste
Incineration and Open Burning of Waste 2003
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
83.0000
6,500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.5395
0.5395
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2003
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3244.2081
6500.0000
Total
3
21.0874
21.0874
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2003
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
83.0000
50.0000
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-108
0.0042
0.0042
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2003
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,244.2081
150.0000
Total
3
0.4866
0.4866
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2003
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
100,911,372
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,302,040,673.7500
2,302,040,673.7500
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2003
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2003
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, Río,…
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, Río,…
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.248
0.248
0.248
0.248
0.752
0.752
0.752
0.752
(fraction)
0.136
0.049
0.686
0.129
0.136
0.049
0.686
0.129
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,302,040,674
2,302,040,674
2,302,040,674
2,302,040,674
2,302,040,674
2,302,040,674
2,302,040,674
2,302,040,674
(kg BOD/yr)
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
805,714,236
0
0
0
0
0
0
0
0
0
0
0
Total
X-109
(CH4)
13,975,781
8,392,319
23,498,495
30,931,692
27,545,814
25,447,678
71,253,500
93,792,872
294,838,150
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2003
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
(W i)
(m3/t
product /yr)
product )
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(CODi)
(TOW i)
(kgCOD/m3)
(kgCOD/yr)
m3/year
D=BxC
45,079,450.56
234,291,981.60
1,417,858.56
3,831,308.64
1,009,467.36
66,937,682.88
11,280,742.56
1,296,760.32
49,483,452.96
2363946937
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
2.4228
99,896,062
252,566,756
24,185,831
8,490,180
4,154,968
43,576,432
27,761,907
2,873,621
146,223,603
5,727,370,639
6,337,100,000
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2003
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2003
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Secundario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Primario
Petrolera
Secundario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
99,896,062
252,566,756
24,185,831
8,490,180
4,154,968
43,576,432
27,761,907
2,873,621
146,223,603
5,727,370,639
34,963,622
0.12
0
7,791,893
88,398,365
0.12
0
19,700,207
8,465,041
0.18
0
2,829,742
2,971,563
0.18
0
993,351
1,454,239
0.18
0
486,131
15,251,751
0.12
0
3,398,962
9,716,667
0.12
0
2,165,429
1,005,767
0.12
0
224,142
51,178,261
0.18
0
17,108,162
0
343,642,238
398,340,257
0.06
Total
X-110
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2003
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
100,911,372
33.1420
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
735,769,031.9813
735,769,031.9813
Waste
Domestic Wastewater Treatment and Discharge 2003
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,781,043.9708
735,769,031.9813
0.0050
X-111
Inventario para 2004
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2004
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
187.8469
815.0498
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.7514
3.2602
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.7514
3.2602
10.8426
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2004
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
187.8469
815.0498
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2004
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
74.2500
99.0000
21.1200
3.9600
11.2200
187.8469
815.0498
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
Total
0.0446
0.0594
0.0127
0.0024
0.0067
0.0000
0.0000
0.1257
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
X-112
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2004
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
Type of Waste
(Gg Waste)
Clinical waste
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
82.0000
0.6500
0.4000
0.2500
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
19.5433
Total
19.5433
1.0000
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2004
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
102,080,606
MSW P
(kg waste/capita/day)
0.2420
Bf rac 1
(fraction)
0.9000
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.4000
365.0000
Total
3,246.0408
3,246.0408
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.242 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2004
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,246.0408
483.9847
48.6906
198.0085
1,636.0046
878.7032
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.7980
5.3017
269.5028
6.2626
2.0182
286.8833
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-113
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2004
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
D
Conversion Factor
OF
(fraction)
0.8000
E
Fossil CO2 Emissions
44/12
1.0000
3.6667
Total
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Waste
Incineration and Open Burning of Waste 2004
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
82.0000
6,500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.5330
0.5330
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2004
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,246.0408
6,500.0000
Total
3
21.0993
21.0993
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2004
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
82.0000
50.0000
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-114
0.0041
0.0041
2
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2004
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
Type of Waste
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,246.0408
150.0000
Total
3
0.4869
0.4869
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2004
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
102,080,606
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,328,713,824.3750
2,328,713,824.3750
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2004
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2004
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.242
0.242
0.242
0.242
0.758
0.758
0.758
0.758
(fraction)
0.215
0.073
0.592
0.12
0.215
0.073
0.592
0.12
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,328,713,824
2,328,713,824
2,328,713,824
2,328,713,824
2,328,713,824
2,328,713,824
2,328,713,824
2,328,713,824
(kg BOD/yr)
0.1800
0.3000
0.0600
0.4200
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
815,049,839
0
0
0
0
0
0
0
0
0
0
0
Total
X-115
(CH4)
21,809,336
12,341,718
20,017,251
28,402,857
44,402,728
38,657,115
62,698,664
88,964,320
317,293,989
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2004
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/yr)
(kgCOD/m3)
(kgBOD/yr)
m3/year
D=AxBxC
44,196,442.56
213,040,817.28
1,435,203.36
5,557,273.92
1,009,152.00
62,741,818.08
18,435,945.60
1,879,860.96
26,320,260.96
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
2.4295
2,433,626,041
97,939,317
229,658,001
24,481,699
12,314,919
4,153,670
40,844,924
45,370,862
4,165,772
77,776,371
5,912,494,467
6,449,200,001
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2004
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2004
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
97,939,317
229,658,001
24,481,699
12,314,919
4,153,670
40,844,924
45,370,862
4,165,772
77,776,371
5,912,494,467
34,278,761
0.12
0
7,639,267
80,380,300
0.12
0
17,913,324
8,568,595
0.18
0
2,864,359
4,310,222
0.18
0
1,440,846
1,453,785
0.12
0
323,986
14,295,723
0.12
0
3,185,904
15,879,802
0.12
0
3,538,927
1,458,020
0.18
0
487,395
27,221,730
0.12
0
6,066,557
0
0.06
0
354,749,668
398,210,233
Total
X-116
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2004
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
Repúlica Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
102,080,606
33.1420
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
744,294,197.6914
744,294,197.6914
Waste
Domestic Wastewater Treatment and Discharge 2004
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,848,027.4339
744,294,197.6919
0.0050
X-117
Inventario para 2005
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2005
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
186.5964
824.4936
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.7464
3.2980
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.7464
3.2980
10.8754
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2005
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
186.5964
824.4936
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2005
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-118
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2005
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
103,263,388
MSW P
(kg waste/capita/day)
0.242
Bf rac 1
(fraction)
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9112
0.4
365
Total
3,324.5150
3,324.5150
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.242 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2005
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
3,324.5150
495.3195
49.7680
202.9949
1,687.1914
889.2413
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.8870
5.4190
276.2896
6.4586
2.0424
294.0965
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2005
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-119
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2005
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71.0000
6,500.0000
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.4615
0.4615
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2005
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,324.5150
6,500.0000
Total
3
21.6093
21.6093
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Type of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
71.0000
50.0000
Total
2
0.0036
0.0036
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2005
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,324.5150
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-120
0.4987
0.4987
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2005
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
103,263,388
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,355,696,038.7500
2,355,696,038.7500
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2005
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2005
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.242
0.242
0.242
0.242
0.758
0.758
0.758
0.758
(fraction)
0.215
0.073
0.592
0.12
0.215
0.073
0.592
0.12
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,355,696,040
2,355,696,040
2,355,696,040
2,355,696,040
2,355,696,040
2,355,696,040
2,355,696,040
2,355,696,040
(kg BOD/yr)
0.1800
0.3000
0.0600
0.4200
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
824,493,614
0
0
0
0
0
0
0
0
0
0
0
Total
X-121
(CH4)
22,062,036
12,484,718
20,249,186
28,731,953
44,917,211
39,105,025
63,425,137
89,995,127
320,970,393
Sector
Category
Category Code
Sheet
Waste
Industrial Wastewater Treatment and Discharge 2005
4D2
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/yr)
(kgCOD/m3)
(kgBOD/yr)
m3/year
D=AxBxC
49,041,318.24
203,370,302.88
1,463,270.40
4,567,989.60
1,009,152.00
56,941,716.96
18,435,945.60
1,502,375.04
27,146,504.16
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
2.2160
1.0780
17.0580
2.2160
4.1160
0.6510
2.4610
2.2160
2.9550
2.4809
2,336,069,314
108,675,561
219,233,187
24,960,466
10,122,665
4,153,670
37,069,058
45,370,862
3,329,263
80,217,920
5,795,554,361
6,328,687,013
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2005
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg BOD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2005
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Units
Alimenticia
Primario
Ingenios Azucareros
Primario
Bebidas Alcohólicas
Secundario
Bebidas No Alcohólicas Secundario
Primario
Beneficio del Café
Celulosa y Papel
Primario
Cervecera
Primario
Lácteos
Secundario
Petrolera
Primario
No Tratada
Primario
(TOW i)
(Si)
(EFi)
(R i)
(CH4)
(kg BOD/yr)
Sheet 1 of 3
(kg BOD/yr)
(kg CH4/kgBOD)
Sheet 2 of 3
(kg CH4/yr)
(kg CH4/yr)
E = [(A – B) x C] – D
108,675,561
219,233,187
24,960,466
10,122,665
4,153,670
37,069,058
45,370,862
3,329,263
80,217,920
5,795,554,361
38,036,446
0.12
0
8,476,694
76,731,615
0.12
0
17,100,189
8,736,163
0.18
0
2,920,375
3,542,933
0.18
0
1,184,352
1,453,785
0.12
0
323,986
12,974,170
0.12
0
2,891,387
15,879,802
0.12
0
3,538,927
1,165,242
0.18
0
389,524
28,076,272
0.12
0
6,256,998
0
0.06
0
347,733,262
390,815,692
Total
X-122
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2005
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
Repúlica Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
103,263,388
33.0330
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
750,441,889.0769
750,441,889.0769
Waste
Domestic Wastewater Treatment and Discharge 2005
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
5,896,330.7365
750,441,889.0700
0.0050
X-123
Inventario para 2006
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2006
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
198.2830
838.4983
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.7931
3.3540
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.7931
3.3540
10.9781
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2006
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
198.2830
838.4983
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-124
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2006
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
105,017,410
MSW P
(kg waste/capita/day)
0.238
Bf rac 1
(fraction)
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9205
0.4
365
Total
3,359.0379
3,359.0379
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.238 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2006
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
3,359.0379
500.8661
50.3856
205.2372
1,704.3758
898.1731
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.9305
5.4862
279.3415
6.5244
2.0629
297.3456
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-125
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.4615
0.4615
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,359.0379
6,500.0000
Total
3
21.8337
21.8337
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
71
50
Total
2
0.0036
0.0036
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2006
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,359.0379
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-126
0.5039
0.5039
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2006
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
105,017,410
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,395,709,665.6250
2,395,709,665.6250
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2006
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 2006
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.238
0.238
0.238
0.238
0.762
0.762
0.762
0.762
(fraction)
0.233
0.074
0.536
0.157
0.233
0.074
0.536
0.157
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,395,709,666
2,395,709,666
2,395,709,666
2,395,709,666
2,395,709,666
2,395,709,666
2,395,709,666
2,395,709,666
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
0
838,498,383
0
0
0
0
0
0
0
0
0
0
Total
X-127
G
Net methane emissions
23,913,303
12,657,972
18,336,953
37,597,597
76,562,760
26,342,409
58,709,069
120,375,499
374,495,562
Sector
Category
Waste
Industrial Wastewater Treatment and Discharge 2006
Category Code
Sheet
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
STEP 1
B
Wastewater
generated
(Pi)
Industry Sectors
(t
product /yr)
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(CODi)
(TOW i)
(m3/yr)
(kgBOD/m3)
(kgBOD/yr)
m3/year
D=AxBxC
29,303,566.56
265,243,619.52
776,731.68
4,633,269.12
1,011,359.52
2.2160
1.0780
17.0580
2.2160
4.1160
64,936,703
285,932,622
13,249,489
10,267,324
0.6510
2.4610
2.2160
41,861,771
48,548,219
Lácteos
64,303,796.16
19,727,029.44
6,638,012.64
Petrolera
28,038,657.60
2.9550
82,854,233
No Tratada
3,062,088,709
2.0161
Total
6,173,477,046
6,740,000,000
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
(B0)
Primario
Secundario
Terciario
Industrial sector
(MCFj)
(-)
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2006
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
14,709,836
Waste
Industrial Wastewater Treatment and Discharge 2006
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(kg CH4/kg COD)
Sector
Category
Category Code
Sheet
4,162,756
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
(kg BOD/yr)
Sheet 1 of 3
64,936,703
285,932,622
13,249,489
10,267,324
4,162,756
41,861,771
48,548,219
14,709,836
82,854,233
6,173,477,046
(Si)
(kg BOD/yr)
22,727,846
100,076,418
4,637,321
3,593,563
1,456,965
14,651,620
16,991,877
5,148,443
28,998,982
0
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-128
(kg CH4/yr)
E = [(A – B) x C] – D
5,065,063
22,302,745
1,550,190
1,201,277
324,695
3,265,218
3,786,761
1,721,051
6,462,630
370,408,623
416,088,252
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2006
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
105,017,410
33.4340
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
772,453,458.9068
772,453,458.9068
Waste
Domestic Wastewater Treatment and Discharge 2006
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.571429
0
(kg N2O-N/year)
E= A x B x C – D
6,069,279
772,453,459
0.005
X-129
Inventario para 2007
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2007
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
208.2337
852.7410
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.8329
3.4110
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
0.8329
3.4110
11.0749
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2007
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
208.2337
852.7410
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
X-130
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2007
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
106,801,226
MSW P
(kg waste/capita/day)
0.238
Bf rac 1
(fraction)
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9551
0.4
365
Total
3,544.4993
3,544.4993
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.238 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2007
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
open-burned
Carbon
Carbon
Content 1
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
3,544.4993
527.7759
53.0612
213.7333
1,786.0378
963.8557
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
4.1417
5.7776
290.9053
6.8370
2.2138
309.8753
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-131
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71
6,500
Total
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
0.4615
0.4615
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,544.4993
6,500
Total
3
23.0392
23.0392
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
71
50
Total
2
0.0036
0.0036
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2007
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,544.4993
150
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-132
0.5317
0.5317
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2007
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
106,801,226
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,436,402,968.1250
2,436,402,968.1250
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2007
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
0.18
0.3
0.06
0.42
Waste
Domestic Wastewater Treatment and Discharge 2007
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
F
Fraction of
Degree of
Emission
Organically
Sludge removed
Methane
population
utilization
Factor
degradable material
recovered and
income group
in wastewater
flared
(TOW)
(S)
(R)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.238
0.238
0.238
0.238
0.762
0.762
0.762
0.762
(fraction)
0.233
0.074
0.536
0.157
0.233
0.074
0.536
0.157
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,436,402,968
2,436,402,968
2,436,402,968
2,436,402,968
2,436,402,968
2,436,402,968
2,436,402,968
2,436,402,968
(kg BOD/yr)
(kg CH4/yr)
(CH4)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
0
852,741,039
0
0
0
0
0
0
0
0
0
0
Total
X-133
G
Net methane emissions
24,319,492
12,872,979
18,648,423
38,236,226
77,863,248
26,789,859
59,706,296
122,420,186
380,856,709
Sector
Category
Waste
Industrial Wastewater Treatment and Discharge 2007
Category Code
Sheet
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(CODi)
(TOW i)
(m3/yr)
(kgBOD/m3)
(kgBOD/yr)
m3/year
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
D=AxBxC
24,520,501.44
285,874,470.72
561,971.52
9,600,819.84
2.216
1.078
17.058
2.216
Beneficio del Café
1,011,359.52
4.116
4,162,756
Celulosa y Papel
Cervecera
66,747,836.16
22,382,676.00
0.651
2.461
43,452,841
55,083,766
Lácteos
7,611,528.96
2.216
16,867,148
Petrolera
27,754,833.60
2.955
82,015,533
1.889
6,228,246,317
6,823,199,999
3,297,112,926
No Tratada
54,337,431
308,172,679
9,586,110
21,275,417
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2007
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg COD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2007
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
(EFj)
(kg CH4/kg BOD)
C=AxB
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Primario
(kg BOD/yr)
Sheet 1 of 3
54,337,431
308,172,679
9,586,110
21,275,417
4,162,756
43,452,841
55,083,766
16,867,148
82,015,533
6,228,246,317
(Si)
(kg BOD/yr)
19,018,101
107,860,438
3,355,139
7,446,396
1,456,965
15,208,494
19,279,318
5,903,502
28,705,437
0
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-134
(kg CH4/yr)
E = [(A – B) x C] – D
4,238,320
24,037,469
1,121,575
2,489,224
324,695
3,389,322
4,296,534
1,973,456
6,397,212
373,694,779
421,962,584
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2007
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
106,801,226
33.4710
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
786,443,643.7981
786,443,643.7981
Waste
Domestic Wastewater Treatment and Discharge 2007
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
6,179,201.7437
786,443,643.7981
0.0050
X-135
Inventario para 2008
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2008
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
216.3744
876.2256
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
0.8655
3.5049
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
2.4750
1.9800
1.3200
0.3960
0.6600
0.8655
3.5049
11.2014
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2008
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste 2008
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
216.37440
876.22560
0.60000
0.60000
0.60000
0.60000
0.60000
0.00000
0.00000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2008
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
X-136
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2008
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
108,615,341
Bf rac 1
(fraction)
MSW P
(kg waste/capita/day)
0.2276
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9655
0.4
365
Total
3,484.7254
3,484.7254
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
NOTA: se considera que solo en la zona rural se incinera la basura de donde se toma el valor de 0.235 para la columna B.
Sector
Waste
Category
Incineration and Open Burning of Waste 2008
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
K
Conversion
Factor
OF
(fraction)
44/12
L
Fossil CO2 Emissions
(Gg CO2)
4
3,484.7254
481.9375
49.8316
379.4866
1,826.6931
746.7767
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.7820
5.4259
516.5066
6.9926
1.7152
534.4222
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2008
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Clinical waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
D
Conversion Factor
OF
(fraction)
0.8000
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Waste
Incineration and Open Burning of Waste 2008
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
6,500
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-137
2
0.4615
0.4615
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2008
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,484.7254
6,500.0000
Total
3
22.6507
22.6507
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2008
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
Type of Waste
Clinical Waste
B
Nitrous Oxide Emission Factor
C
Nitrous Oxide Emissions
(kg N2O/Gg Wet Waste) 1
71.0000
(Gg N2O)
C= A x B x 10-6
0.0036
0.0036
50.0000
Total
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2008
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,484.7254
150
Total
3
0.5227
0.5227
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2008
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
108,615,341
18.2500
(I)
2
(TOW)
(kg BOD/yr)
D=AxBxC
1.2500
Total
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
X-138
D
Organically degradable
material in wastewater
2,477,787,466.5625
2,477,787,466.5625
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2008
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Plata Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
0.6
0.6
0.6
0.6
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
Urban
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Sector
Category
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2008
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge removed
population
utilization
Factor
degradable material
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
(fraction)
0.235
0.235
0.235
0.235
0.765
0.765
0.765
0.765
0.248
0.075
0.516
0.161
0.248
0.075
0.516
0.161
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
(kg BOD/yr)
Sheet 1 of 3
2,477,787,467
2,477,787,467
2,477,787,467
2,477,787,467
2,477,787,467
2,477,787,467
2,477,787,467
2,477,787,467
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
(CH4)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
0
867,225,613
0
0
0
25,992,982
13,101,301
18,027,390
39,373,777
84,615,451
27,721,796
58,684,909
128,174,211
0
0
0
0
0
0
Waste
Industrial Wastewater Treatment and Discharge 2008
Category Code
Sheet
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
STEP 1
B
Wastewater
generated
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(CODi)
(TOW i)
(m3/yr)
(kgCOD/m3)
(kgCOD/yr)
D=AxBxC
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
31,282,765.92
290,753,089.92
778,308.48
10,662,321.60
1,042,895.52
73,474,464.96
19,394,955.36
7,528,589.28
27,754,833.60
2.216
1.078
17.058
2.216
4.116
0.651
2.461
2.216
2.955
69,322,609
313,431,831
13,276,386
23,627,705
3,246,076,888.00
1.966
Total
6,381,787,162
7,000,000,000
X-139
4,292,558
47,831,877
47,730,985
16,683,354
82,015,533
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2008
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg COD)
Primario
Secundario
Terciario
No Especificado
(EFj)
(kg CH4/kg BOD)
C=AxB
0.6
0.6
0.6
0.6
0.2
0.3
0.1
0.3
0.12
0.18
0.06
0.18
Waste
Industrial Wastewater Treatment and Discharge 2008
4D2
Sector
Category
Category Code
Sheet
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Industrial sector
(TOW i)
Units
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
(Si)
(kg BOD/yr)
Sheet 1 of 3
69,322,609
313,431,831
13,276,386
23,627,705
4,292,558
47,831,877
47,730,985
16,683,354
82,015,533
6,381,787,162
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Sin Tratamiento
(EFi)
(kg BOD/yr)
(R i)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
24,262,913
109,701,141
4,646,735
8,269,697
1,502,395
16,741,157
16,705,845
5,839,174
28,705,437
0
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2008
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
(kg CH4/yr)
E = [(A – B) x C] – D
5,407,164
24,447,683
1,553,337
2,764,441
334,820
3,730,886
3,723,017
1,951,952
6,397,212
382,907,230
433,217,741
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
108,615,341
33.2150
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
793,684,881.2893
793,684,881.2893
Waste
Domestic Wastewater Treatment and Discharge 2008
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.571429
0
(kg N2O-N/year)
E= A x B x C – D
6,236,097
793,684,881
0.005
X-140
Inventario para 2009
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2009
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
331.6545
881.9562
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
1.3266
3.5278
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
2.4750
1.9800
1.3200
0.3960
0.6600
1.3266
3.5278
11.6854
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2009
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste 2008
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
331.65450
881.95620
0.60000
0.60000
0.60000
0.60000
0.60000
0.00000
0.00000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2009
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
X-141
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2009
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
110,460,271
Bf rac 1
(fraction)
MSW P
(kg waste/capita/day)
0.2249
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.9762
0.4
365
Total
3,540.6844
3,540.6844
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
Sector
Waste
Category
Incineration and Open Burning of Waste 2009
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
K
Conversion
Factor
OF
(fraction)
44/12
L
Fossil CO2 Emissions
(Gg CO2)
4
3,540.6844
489.6767
50.6318
385.5805
1,856.0268
758.7687
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
L= F x G x H x I x J x K
0.9000
0.8000
1.0000
0.4000
0.9000
0.4100
0.4000
0.8000
0.1500
0.0400
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.8427
5.5131
524.8008
7.1049
1.7427
543.0042
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2009
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Clinical waste
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
D
Conversion Factor
OF
(fraction)
0.8000
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Waste
Incineration and Open Burning of Waste 2009
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
6,500
Total
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-142
2
0.4615
0.4615
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2009
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,540.6844
6,500.0000
Total
3
23.0144
23.0144
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Waste
Incineration and Open Burning of Waste 2009
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
Type of Waste
Clinical Waste
B
Nitrous Oxide Emission Factor
C
Nitrous Oxide Emissions
(kg N2O/Gg Wet Waste) 1
71.0000
(Gg N2O)
C= A x B x 10-6
0.0036
0.0036
50.0000
Total
2
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2009
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
H
Nitrous Oxide Emissions
(kg N2O/Gg Dry Waste) 2
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3540.6844
150.0000
Total
3
0.5311
0.5311
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2009
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
110,460,271
18.2500
(I)
2
(TOW)
(kg BOD/yr)
D=AxBxC
1.2500
Total
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
X-143
D
Organically degradable
material in wastewater
2,519,874,932.1875
2,519,874,932.1875
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2009
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Plata Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
0.6
0.6
0.6
0.6
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
Urban
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2009
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge removed
population
utilization
Factor
degradable material
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Rural
(kg CH4/kg BOD)
C=AxB
(fraction)
0.235
0.235
0.235
0.235
0.765
0.765
0.765
0.765
0.248
0.075
0.516
0.161
0.248
0.075
0.516
0.161
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
(kg BOD/yr)
Sheet 1 of 3
2,519,874,932
2,519,874,932
2,519,874,932
2,519,874,932
2,519,874,932
2,519,874,932
2,519,874,932
2,519,874,932
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
(CH4)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
0
881,956,226
0
0
0
26,434,496
13,323,839
18,333,602
40,042,577
86,052,721
28,192,676
59,681,726
130,351,366
402,413,002
0
0
0
0
0
0
Total
Sector
Category
Waste
Industrial Wastewater Treatment and Discharge 2009
Category Code
Sheet
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
STEP 1
B
Wastewater
generated
C
Chemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(CODi)
(TOW i)
(m3/yr)
(kgCOD/m3)
(kgCOD/yr)
D=AxBxC
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
94,871,640.96
325,136,475.36
2,694,435.84
19,371,934.08
2,131,202.88
80,490,594.24
19,383,602.40
7,006,668.48
58,734,538.56
2,325,459,174
2.216
1.078
17.058
2.216
4.116
0.651
2.461
2.216
2.955
2.593
Total
X-144
210,235,556
350,497,120
45,961,687
42,928,206
8,772,031
52,399,377
47,703,046
15,526,777
173,560,561
6,029,915,638
6,977,500,000
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2009
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg COD)
Primario
Secundario
Terciario
No Especificado
0.6
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.1
0.12
0.18
0.06
0.06
Waste
Industrial Wastewater Treatment and Discharge 2009
4D2
Sector
Category
Category Code
Sheet
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
Industrial sector
(TOW i)
Units
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
Primario
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
(Si)
(kg BOD/yr)
Sheet 1 of 3
210,235,556
350,497,120
45,961,687
42,928,206
8,772,031
52,399,377
47,703,046
15,526,777
173,560,561
6,029,915,638
(EFi)
(kg BOD/yr)
(R i)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
73,582,445
122,673,992
16,086,590
15,024,872
3,070,211
18,339,782
16,696,066
5,434,372
60,746,196
0
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2009
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
(kg CH4/yr)
E = [(A – B) x C] – D
16,398,373
27,338,775
5,377,517
5,022,600
684,218
4,087,151
3,720,838
1,816,633
13,537,724
361,794,938
439,778,769
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
110,460,271
32.7410
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
795,647,541.2184
795,647,541.2184
Waste
Domestic Wastewater Treatment and Discharge 2009
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
6,251,518.1002
795,647,541.2184
0.0050
X-145
Inventario para 2010
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste
Category/
Types of
Waste1
Waste
Biological Treatment of Solid Waste 2010
4B
1 of 1 Estimation of CH4 emissions from Biological Treatment of Solid Waste
STEP 1
STEP 2
STEP 3
A
B
C
D
E
Total Annual amount
Emission Factor
Gross Annual Methane
Recovered/flared
Net Annual Methane
treated by biological
Generation
Methane per Year
Emissions
treatment facilities 3
(Gg)
(g CH4/kg waste
treated)
(Gg CH4)
(Gg CH4)
(Gg CH4)
C= (A x B) x10-3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
367.9040
896.9370
10.0000
10.0000
10.0000
10.0000
10.0000
4.0000
4.0000
E = (C - D)
2.4750
1.9800
1.3200
0.3960
0.6600
1.4716
3.5877
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
Total
2.4750
1.9800
1.3200
0.3960
0.6600
1.4716
3.5877
11.8904
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Biological
Treatment
System
Waste Category /Types
of Waste 1
Waste
Biological Treatment of Solid Waste 2010
4B
1 of 1 Estimation of N2O emissions from Biological Treatment of Solid Waste
STEP 1
A
Total Annual amount treated by
biological treatment facilities 3
B
Emission Factor
STEP 2
(Gg)
(g N2O/kg waste treated)
C
Net Annual Nitrous Oxide Emissions
(Gg N2O)
E = (C - D) x10- 3
Composting
Composting
Composting
Composting
Composting
Anaerobic
Anaerobic
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
RS Urbanos
Lodos ARI
Lodos ARM
247.5000
198.0000
132.0000
39.6000
66.0000
367.9040
896.9370
0.6000
0.6000
0.6000
0.6000
0.6000
0.0000
0.0000
0.1485
0.1188
0.0792
0.0238
0.0396
0.0000
0.0000
0.4099
Total
1 Information on the w aste category should include information of the origin of the w aste (MSW, Industrial, Sludge or Other) and type of w aste (Food w aste or Garden and Park Waste).
2 If anaerobic digestion involves recovery and energy use of the gas, the emissions should be reported in the Energy Sector.
3 Information on w hether the amount treated is given as w et or dry w eight should be given.
ARI. Aguas residuales industriales.
ARM. Aguas residuales municipales, los lodos corresponden al valor de lodos separados de las aguas residuales municipales e industriales respectivamente.
El factor de emisión en cada caso considerado fue tomado del valor por defecto de la tabka 4.1 de las Directrices PICC 2006.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C1
I of I Estimation of CO2 emissions from Incineration of Waste
A
Total Amount of Waste
Incinerated
(Wet Weight)
(Gg Waste)
Clinical waste
71.0000
B
Dry Matter
Content 1
C
Fraction of
Carbon in Dry
Matter 2
D
Fraction of Fossil
Carbon in Total
Carbon3
E
Oxidation
Factor
F
Conversion
Factor
dm
(fraction)
CF
(fraction)
FCF
(fraction)
OF
(fraction)
44/12
0.6500
0.4000
0.2500
1.0000
G
Fossil CO2 Emissions
(Gg CO2)
G= A x B x C x D x E x F
3.6667
16.9217
Total
16.9217
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
5 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount incinerated should be reported here. How ever the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
2 y 3 Fuente Tabla 2.5 pp 2.17 Directrices IPCC 2006
X-146
Sector
Category
Category Code
Sheet
Region, city, etc.
Waste
Incineration and Open Burning of Waste 2010
4C1
1 of 1 Estimation of total amount of waste open-burned
STEP 1
A
B
C
D
E
Population
Fraction of Population
Per Capita Waste
Fraction of the waste Number of days
Burning Waste
Generation
amount burned relative
by year
to the total amount of
365
waste treated
P
P f rac
(fraction)
(Capita)
República Mexicana
112,336,538
MSW P
(kg waste/capita/day)
0.225
Bf rac 1
(fraction)
F
Total Amount of MSW
Open-burned
MSW B
(Gg/yr)
F=AxBxCxDxE
(day)
0.977
0.4
365
Total
3,605.3794
3,605.3794
1 When all the amount of w aste is burned Bfrac could be considered equal 1. When a substantial quantity of w aste in open dumps is burned, a relatively large part of w aste is left unburned. In
this situation, Bfrac should be estimated using survey or research data available or expert judgement.
Sector
Waste
Category
Incineration and Open Burning of Waste 2010
Category Code
4C2
Sheet
1 of 1 Estimation of CO2 emissions from Open Burning of Waste
STEP 1
STEP 2
F
G
H
I
Type of Waste
Total Amount of Waste Dry Matter
Fraction of
Fraction of Fossil
1
open-burned
Carbon
Carbon
Content
(Wet Weight)
in Dry Matter 2
in Total Carbon 3
dm
CF
FCF
(Gg Waste)
(fraction)
(fraction)
(fraction)
F = (A x B x C x D)
Municipal Solid Waste
(MSW) 5,6
Composition
5,6
Paper
Textil
Platics
Food
Others
J
Oxidation
Factor
K
Conversion
Factor
OF
(fraction)
44/12
4
3,605.3794
498.6240
51.5569
392.2653
1,889.9399
772.6328
L
Fossil CO2 Emissions
(Gg CO2)
L= F x G x H x I x J x K
0.9
0.8
1
0.4
0.9
0.41
0.4
0.8
0.15
0.04
0.0100
0.1600
0.8000
0.0300
0.0300
0.5800
0.5800
0.5800
0.5800
0.5800
3.6667
3.6667
3.6667
3.6667
3.6667
Total
3.9129
5.6138
533.8992
7.2347
1.7746
552.4352
1 For default data and relevant equations on the dry matter content in MSW and other types of w aste, see Section 5.3.3 in Chapter 5.
2 For default data and relevant equations on the fraction of carbon, see Section 5.4.1.1 in Chapter 5.
3 For default data and relevant equations on the fraction of fossil carbon, see Section 5.4.1.2 in Chapter 5.
4 The amount MSW can be calculated in the previous sheet “Estimation of Total Amount of Waste Open-burned”. See also Equation 5.7.
5 Users may either enter all MSW incinerated in the MSW row or the amount of w aste by composition by adding the appropriate row s.
6 All relevant fractions of fossil C should be included. For consistency w ith the CH4 and N2O sheets, the total amount open-burned should be reported here. How ever, the fossil CO2 emissions
from MSW should be reported only once (either for total MSW or the components).
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C1
I of I Estimation of CO2 emissions from incineration of fossil liquid waste
A
Total Amount of Fossil
Liquid Waste Incinerated
(Weight)
CL
(fraction)
Gg Waste
Mix
B
C
Fossil Carbon Content of Oxidation Factor for Fossil
Fossil Liquid Waste
Liquid Waste of type i
0.0000
OF
(fraction)
0.8000
X-147
D
Conversion Factor
44/12
1.0000
3.6667
Total
E
Fossil CO2 Emissions
(Gg CO2)
E= A x B x C x D
0.0000
0.0000
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C1
I of I Estimation of CH4 emissions from Incineration of Waste
A
Amount of Waste Incinerated
(Wet Weight) 1
(Gg Waste)
Clinical waste
B
Methane Emission Factor
(kg CH4/Gg Wet Waste) 1
71.0000
C
Methane Emissions
(Gg CH4)
C= A x B x 10-6
2
6,500.0000
Total
0.4615
0.4615
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C2
I of I Estimation of CH4 emissions from Open Burning of Waste
F
Total Amount of Waste
Open-burned
(Wet Weight) 1 ,2
G
Methane Emission Factor
(Gg Waste)
(kg CH4/Gg Wet Waste) 2
H
Methane Emissions
(Gg CH4)
H= F x G x 10-6
Municipal Solid Waste
3,605.3794
6,500.0000
Total
3
23.4350
23.4350
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in term of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C1
I of I Estimation of N2O emissions from Incineration of Waste
A
Total Amount of Waste Incinerated
(Wet Weight 1)
(Gg Waste)
B
Nitrous Oxide Emission Factor
(kg N2O/Gg Wet Waste) 1
C
Nitrous Oxide Emissions
(Gg N2O)
C= A x B x 10-6
Clinical waste
71.0000
50.0000
Total
2
0.0036
0.0036
1 If the total amount of w aste is expressed in terms of dry w aste, the CH4 emission factor needs to refer to dry w eight instead.
2 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
Sector
Category
Category Code
Sheet
Type of Waste
Waste
Incineration and Open Burning of Waste 2010
4C2
I of I Estimation of N2O emissions from Open Burning of Waste
F
Total Amount of Waste Openburned
(Wet Weight) 1,2
(Gg Waste)
G
Nitrous Oxide Emission Factor
(kg N2O/Gg Dry Waste) 2
H
Nitrous Oxide Emissions
(Gg N2O)
H= F x G x 10-6
Municipal Solid Waste
3,605.3794
150.0000
Total
1 Total amount of MSW open-burned is obtained by estimates in the Worksheet “Total amount of w aste open-burned”.
2 If the total amount of w aste is expressed in terms of dry w aste, a fraction of dry matter should not be applied.
3 Factor of 10-6 as emission factor is given in kg /Gg w aste incinerated on a w et w eight basis.
X-148
0.5408
0.5408
3
Sector
Category
Category Code
Sheet
Region or City
Waste
Domestic Wastewater Treatment and Discharge 2010
4D1
1 of 3 Estimation of Organically Degradable Material in Domestic Wastewater
STEP 1
A
B
C
Population
Degradable organic
Correction factor for industrial
component
BOD discharged in sewers
(P)
cap
República Mexicana
(BOD)
(kg BOD/cap.yr) 1
112,336,538
(I)
D
Organically degradable
material in wastewater
2
(TOW)
(kg BOD/yr)
D=AxBxC
18.2500
1.2500
Total
2,562,677,273.1250
2,562,677,273.1250
1 g BOD/cap.day x 0.001 x 365 = kg BOD/cap.yr
2 Correction factor for additional industrial BOD discharged into sew ers, (for collected the default is 1.25, for uncollected the default is 1.00).
Sector
Category
Category Code
Sheet
Type of treatment
or discharge
Waste
Domestic Wastewater Treatment and Discharge 2010
4D1
2 of 3 Estimation of CH4 emission factor -for Domestic Wastewater
STEP 2
A
B
C
Maximum methane producing Methane correction factor for
Emission factor
capacity
each treatment system
(B0)
(MCFj)
(EFj)
(kg CH4/kgBOD)
Planta Aeróbica
Laguna Anaeróbica
Mar, Río,…
Pozo Séptico
Sector
Category
Category Code
Sheet
Income group Type of
treatment or
discharge
pathway
0.6
0.6
0.6
0.6
Rural
Urban
0.3
0.5
0.1
0.7
Waste
Domestic Wastewater Treatment and Discharge 2010
4D1
3 of 3 Estimation of CH4 emissions from Domestic Wastewater
STEP 3
A
B
C
D
E
Fraction of
Degree of
Emission
Organically
Sludge
population
utilization
Factor
degradable material
removed
income group
in wastewater
(TOW)
(S)
(U i)
(T i j)
(EF j)
(fraction)
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
Planta Aeróbica
Lag Anaeróbica
Mar, río, lago
Pozo Séptico
(kg CH4/kg BOD)
C=AxB
0.233
0.233
0.233
0.233
0.767
0.767
0.767
0.767
(fraction)
0.299
0.071
0.466
0.164
0.299
0.071
0.466
0.164
(kg CH4/kg
BOD)
Sheet 2 of 3
0.18
0.3
0.06
0.42
0.18
0.3
0.06
0.42
(kg BOD/yr)
Sheet 1 of 3
2,562,677,273
2,562,677,273
2,562,677,273
2,562,677,273
2,562,677,273
2,562,677,273
2,562,677,273
2,562,677,273
(kg BOD/yr)
0.18
0.3
0.06
0.42
F
Methane
recovered and
flared
(R)
G
Net methane emissions
(kg CH4/yr)
(kg CH4/yr)
G = [(A x B x C) x ( D -E)] - F
0
0
0
0
0
896,937,046
0
0
0
0
0
0
0
0
0
0
Total
X-149
(CH4)
32,136,127
12,718,311
16,695,022
41,128,510
105,787,164
27,213,365
54,957,434
135,388,701
426,024,634
Sector
Category
Waste
Industrial Wastewater Treatment and Discharge 2010
Category Code
Sheet
1 of 3 Total Organic Degradable Material in wastewater for each industry sector
STEP 1
B
Wastewater
generated
A
Total industry
product
(Pi)
Industry Sectors
(t
product /yr)
C
Biochemical Oxygen
Demand
D
Total organic degradable material in
wastewater for each industry sector
(W i)
(BODi)
(TOW i)
(m3/yr)
(kgBOD/m3)
(kgBOD/yr)
D=AxBxC
45,222,939.3600
330,500,118.2400
2,670,783.8400
23,499,681.1200
2,137,510.0800
2.216
1.078
17.058
2.216
4.116
100,214,033.6218
356,279,127.4627
45,558,230.7427
52,075,293.3619
0.651
2.461
2.216
50,025,910.9493
37,225,682.5464
Lácteos
76,844,717.2800
15,126,242.4000
68,141,096.6400
Petrolera
84,595,320.0000
2.955
249,979,170.6000
2,038,796,578.3661
2.955
6,024,643,889.0717
Alimenticia
Ingenios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
No Tratada
8,797,991.4893
151,000,670.1542
Total
Sector
Category
Category Code
Sheet
Type of treatment or
discharge
Waste
Industrial Wastewater Treatment and Discharge 2010
4D2
2 of 3 Estimation of CH4 emission factor for Industrial Wastewater
STEP 2
A
B
C
Maximum Methane
Methane Correction Factor for the
Emission Factor
Producing Capacity
Treatment System
(B0)
(MCFj)
(-)
(kg CH4/kg COD)
Primario
Secundario
Terciario
Sector
Category
Category Code
Sheet
Industrial sector
0.6
0.6
0.6
(EFj)
(kg CH4/kg BOD)
C=AxB
0.2
0.3
0.1
0.12
0.18
0.06
Waste
Industrial Wastewater Treatment and Discharge 2010
4D2
3 of 3 Estimation of CH4 emissions from Industrial Wastewater
STEP 3
A
B
C
D
E
Type of
Total organic
Sludge
Emission factor for Recovered CH4 in each Net methane emissions
treatment or
degradable
removed in each
each treatment
industry sector
discharge
material in
industry sector
system
pathway
wastewater for
each industry sector
(TOW i)
Units
Alimenticia
Ingemios Azucareros
Bebidas Alcohólicas
Bebidas No Alcohólicas
Beneficio del Café
Celulosa y Papel
Cervecera
Lácteos
Petrolera
No Tratada
7,075,800,000.0000
Primario
Primario
Secundario
Secundario
Primario
Primario
Primario
Secundario
Primario
(kg COD/yr)
Sheet 1 of 3
100,214,033.62
356,279,127.46
45,558,230.74
52,075,293.36
8,797,991.49
50,025,910.95
37,225,682.55
151,000,670.15
249,979,170.60
6,024,643,889.07
(Si)
(kg COD/yr)
30,064,210
106,883,738
18,223,292
20,830,117
2,639,397
15,007,773
11,167,705
60,400,268
99,991,668
0
(EFi)
(kg CH4/kgBOD)
Sheet 2 of 3
0.12
0.12
0.18
0.18
0.12
0.12
0.12
0.18
0.12
0.06
(R i)
(CH4)
(kg CH4/yr)
0
0
0
0
0
0
0
0
0
0
Total
X-150
(kg CH4/yr)
E = [(A – B) x C] – D
8,417,979
29,927,447
4,920,289
5,624,132
739,031
4,202,177
3,126,957
16,308,072
17,998,500
361,478,633
452,743,217
Sector
Category
Category Code
Sheet
Waste
Domestic Wastewater Treatment and Discharge 2010
4D1
1 of 2 Estimation of nitrogen in effluent
A
Population
units
República Mexicana
Sector
Category
Category Code
Sheet
República Mexicana
B
Per capita
protein
consumption
C
Fraction of
nitrogen in
protein
(P)
(Protein)
(people)
(kg/person/
year)
(FNPR )
(kg N/kg
protein)
112,336,538
32.2660
D
E
F
Fraction of nonFraction of
Nitrogen
consumption
industrial and
removed with
protein
commercial cosludge
discharged
(default is zero)
protein
0.1600
(FNON-CON )
(FIND-COM)
(NSLUDGE)
(-)
(-)
(kg)
1.1000
1.2500
0.0000
Total
H
Total nitrogen in effluent
(NEFFLUENT)
kg N/year)
H = (A x B x C x D x E) – F
797,423,161.7238
797,423,161.7238
Waste
Domestic Wastewater Treatment and Discharge 2010
4D1
2 of 2 Estimation of emission factor and emissions of indirect N 2O from Wastewater
A
Nitrogen in effluent
(NEFFLUENT)
B
Emission factor
C
Conversion factor of kg
N2O-N into kg N2O
D
Emissions from
Wastewater plants
(default = zero)
E
Total N2O emissions
(kg N/year)
(kg N2O-N/kg N)
44/28
(kg N2O-N/year)
1.5714
0.0000
(kg N2O-N/year)
E= A x B x C – D
6,265,469.4080
797,423,161.7238
0.0050
X-151
Apéndice B
Notas Sobre Incertidumbre
X-152
La incertidumbre de los inventarios de de GEI tiene básicamente tres componentes, el
primero se refiere a la metodología empleada, el segundo a la información de la
actividad (activity data), y el tercero a los factores de emisión (emission factors). En
este inventario, solo se toman en cuenta las incertidumbres debidas a los datos de las
actividades (activity data), y a los factores de emisión (emission factors).
Para estimar la incertidumbre asociada a las emisiones en cuestión, se consideraron para
cada fuente, las incertidumbres propuesta por las Directrices del IPCC de 2006. Tanto
para la información de las actividades (activity data), como para los valores por defecto
de los factores de emisión (emission factors).
Para evaluar las incertidumbres en este inventario, se aplicó el Método de propagación de
error para combinar las incertidumbres citados en el punto 3.2.3 en el capítulo 3 de
incertidumbres de las Directrices del IPCC 2006, donde se establece que la incertidumbre
total para variables aleatorias es igual a la raíz cuadrada de la suma de los cuadrados de las
incertidumbres individuales. Por lo que se calcularon de acuerdo a la siguiente expresión
general:
Ecuación B-1:
UT =  (UE2 + UA2
Donde:
UT = Incertidumbre total.
UE = Incertidumbre debida a factores de emisión.
UA = Incertidumbre debida a la información de la actividad.
En los cuadros siguientes 3.5, 6.7 y 6.10 tomados de las Directrices IPCC 2006 se
resumen los valores de las incertidumbres para las fuentes de emisiones de GEI de
desechos sólidos procedentes de los SEDS (sitios de eliminación de desechos sólidos),
de las aguas residuales domésticas o municipales y de las aguas residuales industriales
respectivamente. De estos valores se tomó el valor alto para calcular las incertidumbres
de los diferentes sectores en este inventario.
X-153
X-154
Derivadas del Método de Propagación de Error se emplearon las hojas de cálculo
propuestas por la propia metodología (Volumen 1: Orientación general y generación de
informes Pág. 3.34), las cuales requieren como datos de entrada las emisiones de metano
equivalentes en CO2 y N2Opara los diferentes sub sectores de desechos sólidos, aguas
residuales municipales e industriales. Estos valores se obtuvieron multiplicando por 21 y
310 respectivamente, a los valores de las emisiones de CH4 correspondientes resumidas en
la tabla 7.4.2. y 7.4.3. A continuación se cargan los valores ya descritos, de las
incertidumbres por sector que se combinaron de acuerdo a la propiedad de variables
aleatorias. Una vez alimentados los valores anteriores y las emisiones del año de referencia
(1990) equivalentes en CO2, la hoja de cálculo proporciona automáticamente los valores de
las columnas de la G a la M, que indican el comportamiento de la incertidumbre para cada
sector, individual y en total para el año considerado. A continuación se incluyen para los
años del periodo considerado la incertidumbre y el análisis derivado de esta información.
Incertidumbre 1990 con año base 1990
INEGEI 1990 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,657.000
102.480
102.480
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
254.940
86.893
86.893
184.907
184.907
3,948.210
3,948.210
1,328.536
1,328.536
3,808.140
3,808.140
∑C
∑D
16,410
16,410
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
38.51442764
0.698765512
0.265698631
0
0
0
0
0
0
0
0
0
%
73.39768389
73.39768389
141.4213562
141.4213562
141.4213562
141.4213562
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.738322401
0.592484696
1.260798541
21.6062299
7.270295714
18.11340768
√∑ H2
9.490017424
0
0
0
0
0
0
1
1
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1
1
1
1
1
1
0
0
0
0
0
0
70.99352083
70.99352083
70.99352083
89.94398257
89.94398257
73.39768389
D
D
D
D
D
D
R
R
R
R
R
R
X-155
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
70.99352083
70.99352083
70.99352083
89.94398257
89.94398257
73.39768389
√∑ M2
28.679376
Sin
Incertidumbre 1991 con año base 1990
INEGEI 1991 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,426.000
102.480
103.740
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
259.770
86.893
88.908
184.907
124.235
3,948.210
4,040.190
1,328.536
1,359.443
3,808.140
3,866.940
∑C
∑D
16,410
16,308
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
37.41022179
0.711775868
0.267358495
0
0.386450316
0.000115546
-6.20838E-05
0
30.7228001
0.005800404
-0.003116606
0
%
70.8507611
77.22513059
143.1601434
143.1601435
141.4213562
141.4213563
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.782321353
0.610011267
0.85239517
22.24770455
7.485906906
18.50799442
√∑ H2
9.480278995
-0.000827079
-4.8704E-06
0.394334934
0.007081772
0.002384108
0.005012258
0.965299685
1.012295082
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.018945634
1.02318944
0.671878296
1.023296633
1.023263954
1.015440609
-0.082707868
-0.00048704
39.43349339
0.448984332
0.151152443
0.29221462
72.33853811
72.63982081
47.69900577
92.03937453
92.03643521
74.53098881
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
72.33858539
72.63982082
61.88857369
92.04046964
92.03655933
74.53156165
√∑ M2
28.76251381
Sin
Incertidumbre 1992 con año base 1990
INEGEI 1992 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,258.000
102.480
105.210
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
322.770
86.893
109.988
184.907
153.798
3,948.210
4,338.390
1,328.536
1,391.094
3,808.140
3,915.030
∑C
∑D
16,410
16,633
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
35.72020451
0.707754847
0.262133667
0
-0.90146745
8.14262E-05
0.000135998
0
-71.66666224
0.004087595
0.0068271
0
68.99845362
99.48314972
145.1887284
145.1887285
141.4213562
141.4213564
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.171295809
0.739896779
1.034606947
23.42290871
7.510497619
18.37197463
√∑ H2
9.483737318
0.041939762
0.014294658
-0.873805436
0.020455578
0.002708958
0.003349925
0.940063091
1.026639344
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.266062603
1.265786657
0.831756505
1.098824531
1.047087922
1.028068821
4.193976215
1.429465826
-87.38054356
1.296883656
0.171747926
0.195300626
89.88224178
89.86265141
59.04932274
98.83265443
94.17925783
75.45787034
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
89.98003569
89.87402011
105.4617557
98.84116292
94.17941444
75.45812308
√∑ M2
30.65758873
Sin
Incertidumbre 1993 con año base 1990
INEGEI 1993 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,279.000
102.480
111.300
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
422.940
86.893
144.057
184.907
201.302
3,948.210
4,439.400
1,328.536
1,423.489
3,808.140
8,368.500
∑C
∑D
16,410
21,429
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
27.81921609
0.58116175
0.203469272
0
-19.75117689
-0.001372403
0.003058472
0
-1570.218563
-0.06889464
0.153535288
0
69.22999206
1571.743976
153.5928664
153.5928819
141.4213562
141.4214396
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.208414652
0.752205016
1.051115981
18.60426599
5.965438569
30.48206537
√∑ H2
9.363084571
0.112523924
0.03832812
-19.60711405
-0.043547482
-0.018958883
0.206447024
0.943217666
1.086065574
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.658978583
1.657866572
1.088667925
1.124408276
1.071471906
2.197529503
11.25239239
3.832812
-1960.711405
-2.760910357
-1.201993154
12.03586149
117.7767306
117.697785
77.28836901
101.1337584
96.37245043
161.2935758
D
D
D
D
D
D
R
R
R
R
R
R
X-156
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
118.3130365
117.7601759
1962.234111
101.1714372
96.37994599
161.7420154
√∑ M2
66.5158554
Sin
Incertidumbre 1994 con año base 1990
INEGEI 1994 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,384.000
102.480
112.980
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
426.090
86.893
145.173
184.907
202.868
3,948.210
4,613.700
1,328.536
1,456.628
3,808.140
8,424.570
∑C
∑D
16,410
21,805
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
27.79666375
0.579760763
0.199960503
0
-21.22286649
-0.001413121
0.003287621
0
-1687.217886
-0.070938684
0.16503856
0
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.186495516
0.744960251
1.041023105
19.00128641
5.999047581
30.15712271
√∑ H2
9.365165273
0.110112942
0.037537196
-21.07608122
-0.038451253
-0.01879467
0.204550779
0.958990536
1.102459016
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.671334432
1.670709954
1.097134235
1.168554864
1.096415904
2.212253226
D
∑C
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
D
D
D
D
R
R
R
R
D
D
D
D
D
D
R
R
R
R
R
R
I● F
Nota C
11.01129419
3.753719555
-2107.608122
-2.437809438
-1.191582082
11.92531039
J ● E ●√ 2
Nota D
%
%
70.38768423
1688.685471
155.9112493
155.9112654
141.4213562
141.4214525
#¡DIV/0!
118.6539158
119.1637543
118.6095819
118.6689653
77.88942217
2109.046884
105.1044783
105.132746
98.61601299
98.6232117
162.374263
162.8115914
√∑ M2
68.55264649
Sin
Incertidumbre 1995 con año base 1990
INEGEI 1995 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,468.000
102.480
114.450
38.967
38.967
0.000
0.000
0.000
0.000
0.000
0.000
254.940
448.350
86.893
152.706
184.907
213.407
3,948.210
4,721.220
1,328.536
1,490.542
3,808.140
8,456.070
∑C
∑D
16,410
22,104
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
27.78178872
0.579366585
0.197257997
0
-22.39204098
-0.001437226
0.003469673
0
-1780.167258
-0.072148758
0.17417756
0
71.31383797
1781.595108
157.9398343
157.9398508
141.4213562
141.4214635
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.269628733
0.773025372
1.080304298
19.18131107
6.055754607
29.86077857
√∑ H2
9.3690563
0.121946937
0.041535114
-22.2425617
-0.036284321
-0.018202297
0.202251126
0.971608833
1.116803279
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.758649094
1.757402783
1.154130996
1.195787458
1.121943252
2.220524981
12.1946937
4.153511377
-2224.25617
-2.300425941
-1.154025636
11.79124066
124.8526911
125.4468215
124.7642111
124.833329
81.93582288
2225.76481
107.5538863
107.5784849
100.9120443
100.9186428
162.9813906
163.4073653
√∑ M2
70.20616694
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
Sin
Incertidumbre 1996 con año base 1990
INEGEI 1996 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
6,657.000
102.480
115.290
38.967
38.967
0.000
0.477
0.000
0.210
0.000
0.031
254.940
452.970
86.893
154.349
184.907
215.691
3,948.210
5,169.990
1,328.536
1,510.661
3,808.140
8,487.570
∑C
∑D
16,410
22,803
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
27.71647948
0.565716182
0.191207065
0.002339118
-25.13014023
-0.001652221
0.00389595
0.002578053
-1997.846148
-0.082941486
0.195576692
0.257805275
%
73.39768389
1999.193951
159.0990258
159.0990474
141.4213562
141.4214915
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.222677241
0.757374682
1.058371118
20.36024827
5.949224855
29.05261592
√∑ H2
9.374233511
0.12251734
0.041781175
-24.97525087
-0.019233757
-0.02042541
0.194297334
1
1.125
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.776771005
1.776311095
1.166480988
1.309451625
1.137086989
2.228796735
12.25173404
4.178117518
-2497.525087
-1.219420171
-1.294970977
11.32753458
126.1392294
126.1065787
82.8125923
117.7772941
102.2741323
163.5885182
D
D
D
D
D
D
R
R
R
R
R
R
X-157
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
126.7328299
126.1757737
2498.897654
117.7836067
102.2823303
163.9802315
√∑ M2
73.72629732
Sin
Incertidumbre 1997 con año base 1990
INEGEI 1997 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
7,245.000
102.480
115.500
38.967
38.967
0.000
0.480
0.000
0.210
0.000
0.031
254.940
409.710
86.893
139.532
184.907
195.003
3,948.210
5,239.710
1,328.536
1,531.090
3,808.140
7,989.240
∑C
∑D
16,410
22,904
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
30.03125665
0.564240887
0.190361685
0.002343432
-25.49251393
-0.00167796
0.003957663
0.002594277
-2026.654857
-0.084233588
0.198674695
0.259427712
79.88076007
2028.2285
159.3888236
159.3888459
141.4213562
141.4214958
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.001516312
0.681642074
0.952626698
20.54358456
6.003018657
27.22594408
√∑ H2
9.39130103
0.087072408
0.029630505
-25.37214827
-0.016476509
-0.019680704
0.162571578
1.088328076
1.12704918
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.60708402
1.60579103
1.054597717
1.32711026
1.152464066
2.097937576
8.707240804
2.963050539
-2537.214827
-1.044610696
-1.247756635
9.477922998
114.0925528
114.000759
74.86960497
119.3655821
103.6572078
153.983759
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
114.4243272
114.0392595
2538.319234
119.3701529
103.6647174
154.2751732
√∑ M2
73.98061709
Sin
Incertidumbre 1998 con año base 1990
INEGEI 1998 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
7,896.000
102.480
119.070
38.967
38.967
0.000
4.290
0.000
2.520
0.000
0.279
254.940
422.100
86.893
143.809
184.907
200.986
3,948.210
5,349.540
1,328.536
1,581.000
3,808.140
7,622.790
∑C
∑D
16,410
23,381
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
32.06217179
0.569817266
0.186479125
0.020530075
-27.32752103
-0.001641892
0.004248279
0.023200852
-2172.537922
-0.082422972
0.213263614
2.320085232
87.05845155
164.3153873
141.4213562
#¡DIV/0!
2174.281535
164.3154079
141.421517
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
2.019987134
0.688207367
0.961833073
20.54641679
6.072276299
25.44732388
√∑ H2
9.411431496
0.089185344
0.030392224
-27.23488758
-0.016774727
-0.018992504
0.133564366
1.186119874
1.161885246
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.65568369
1.655012487
1.08695885
1.354927929
1.190031734
2.001709496
8.91853443
3.039222408
-2723.488758
-1.063517723
-1.20412477
7.786802543
117.5428146
117.8806749
117.4951634
117.5344643
77.16703573
2724.58176
121.8676141
121.8722545
107.0361936
107.0429664
146.9208408
147.1270463
√∑ M2
76.26308168
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
Sin
Incertidumbre 1999 con año base 1990
INEGEI 1999 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
9,408.000
102.480
120.120
38.967
38.967
0.000
4.290
0.000
2.520
0.000
0.279
254.940
415.690
86.893
141.608
184.907
197.884
3,948.210
5,421.780
1,328.536
1,572.723
3,808.140
7,867.020
∑C
∑D
16,410
25,191
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
35.45760222
0.533549641
0.173083823
0.019055344
-34.34865711
-0.002266494
0.005351038
0.023200852
-2730.71824
-0.113778011
0.26862209
2.320085232
103.7292189
2732.687662
165.7643766
165.7644156
141.4213562
141.4216114
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.846414006
0.628995152
0.878960405
19.32803945
5.606581638
24.37612531
√∑ H2
9.425943294
0.085562976
0.029143814
-34.30466958
-0.038849905
-0.028416515
0.122882839
1.413249211
1.172131148
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.630540519
1.629682483
1.070179063
1.373224828
1.183801568
2.065843168
8.556297608
2.914381425
-3430.466958
-2.463083955
-1.801607029
7.16406952
115.7578123
115.6968973
75.9757796
123.51331
106.4758276
151.6281038
D
D
D
D
D
D
R
R
R
R
R
R
X-158
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
116.0736031
115.7335978
3431.308187
123.5378668
106.4910684
151.7972521
√∑ M2
84.17134467
Sin
Incertidumbre 2000 con año base 1990
INEGEI 2000 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
10,668.000
102.480
120.960
38.967
38.967
0.000
3.813
0.000
2.100
0.000
0.248
254.940
426.720
86.893
145.390
184.907
203.179
3,948.210
5,493.810
1,328.536
1,593.958
3,808.140
7,983.780
∑C
∑D
16,410
26,681
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
37.96098936
0.507275337
0.163417643
0.015992006
-40.12925709
-0.002782319
0.006259108
0.0206228
-3190.275939
-0.139672405
0.314207215
2.062279957
117.621525
3192.443483
166.923568
166.9236265
141.4213562
141.4217053
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.78955466
0.609728515
0.852081236
18.49106855
5.364944664
23.35637511
√∑ H2
9.439884908
0.090788111
0.03094396
-40.12575595
-0.05626496
-0.034468681
0.108958999
1.602523659
1.180327869
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.673805601
1.673207278
1.098817784
1.391468539
1.199785328
2.096503805
9.078811065
3.094396041
-4012.575595
-3.567198475
-2.185314358
6.35230964
118.8293528
118.7868757
78.00894324
125.154222
107.9134706
153.8785235
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
119.1756683
118.8271734
4013.333814
125.2050486
107.9355953
154.0095836
√∑ M2
90.21793446
Sin
Incertidumbre 2001 con año base 1990
INEGEI 2001 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
11,739.000
102.480
120.960
38.967
38.967
0.000
3.813
0.000
2.100
0.000
0.248
254.940
436.380
86.893
148.645
184.907
207.665
3,948.210
5,557.440
1,328.536
1,612.433
3,808.140
7,949.340
∑C
∑D
16,410
27,817
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
40.06603386
0.486557849
0.156743549
0.015338881
-44.52990631
-0.003214628
0.006951461
0.0206228
-3540.127552
-0.161374325
0.348963356
2.062279957
129.4299852
3542.492795
166.923568
166.923646
141.4213562
141.4217868
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.755325019
0.597919904
0.835325621
17.9412993
5.20548005
22.30584543
√∑ H2
9.453352287
0.095381904
0.032483477
-44.56394227
-0.069013252
-0.038943969
0.090836801
1.76340694
1.180327869
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.71169687
1.710667142
1.123077547
1.407584703
1.213691612
2.08746002
9.538190437
3.248347719
-4456.394227
-4.375440155
-2.469047621
5.295785508
121.5193874
121.4462834
79.73122923
126.603774
109.1642572
153.2147307
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
121.8931441
121.4897177
4457.107422
126.6793593
109.1921758
153.3062263
√∑ M2
94.55425043
Sin
Incertidumbre 2002 con año base 1990
INEGEI 2002 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
12,915.000
102.480
128.100
38.967
38.967
0.000
17.160
0.000
9.870
0.000
1.116
254.940
434.070
86.893
147.870
184.907
206.665
3,948.210
6,120.660
1,328.536
1,631.127
3,808.140
8,213.940
∑C
∑D
16,410
29,865
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
41.05763351
0.4799501
0.145996999
0.064293081
-52.50706181
-0.003558716
0.008199318
0.092803409
-4174.311414
-0.178647537
0.411605772
9.280340928
142.3961375
4176.739451
176.7766953
176.7767856
141.4213562
141.4219552
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.626322718
0.554022025
0.774307881
18.40482176
4.904798127
21.46808935
√∑ H2
9.459399323
0.090951465
0.030980788
-52.56352617
-0.064722238
-0.047899081
0.07803551
1.940063091
1.25
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.702635914
1.701748127
1.117669423
1.55023669
1.22776274
2.156942759
9.095146486
3.098078793
-5256.352617
-4.103389899
-3.036801724
4.549470229
120.8761183
120.8130911
79.34728746
139.4344618
110.4298705
158.3146028
D
D
D
D
D
D
R
R
R
R
R
R
X-159
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
121.2178108
120.8528075
5256.951477
139.4948276
110.4716184
158.3799582
√∑ M2
101.9916991
Sin
Incertidumbre 2003 con año base 1990
INEGEI 2003 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
13,986.000
102.480
129.570
38.967
38.967
0.000
17.160
0.000
9.870
0.000
1.116
254.940
442.890
86.893
150.846
184.907
287.638
3,948.210
6,191.640
1,328.536
1,667.800
3,808.140
8,365.140
∑C
∑D
16,410
31,289
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
42.43872107
0.463362279
0.139351995
0.061366803
-58.03988436
-0.004011055
0.009067225
0.092803409
-4614.170807
-0.20135494
0.45517469
9.280340928
154.2045977
4616.74683
178.8052803
178.8053937
141.4213562
141.4220887
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.583842863
0.539448533
1.028636723
17.7708548
4.786814419
20.86816885
√∑ H2
9.469982488
0.092290687
0.031415117
-58.12233173
-0.081236474
-0.05268613
0.067136029
2.100946372
1.264344262
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.73723229
1.735997146
1.555580373
1.568214457
1.25536681
2.196647182
9.229068662
3.141511729
-5812.233173
-5.150392475
-3.340300671
3.914030491
123.3322368
123.2445495
110.4361276
141.0514538
112.9126905
161.2288155
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
123.6770647
123.2845817
5813.282257
141.1454539
112.9620878
161.2763175
√∑ M2
106.8297808
Sin
Incertidumbre 2004 con año base 1990
INEGEI 2004 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
15,162.000
102.480
128.310
38.967
38.967
0.000
19.543
0.000
11.130
0.000
1.271
254.940
443.100
86.893
150.939
184.907
286.883
3,948.210
6,663.090
1,328.536
1,669.133
3,808.140
8,362.410
∑C
∑D
16,410
32,937
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
43.70496758
0.435895383
0.13237889
0.066392598
-64.44702309
-0.004715002
0.010071688
0.105692591
-5123.538336
-0.236693078
0.505598752
10.56925914
167.1707501
177.0664932
141.4213562
#¡DIV/0!
5126.264833
177.0666514
141.42226
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.505301568
0.512770737
0.974601402
18.16702639
4.550919056
19.81746645
√∑ H2
9.479858651
0.092256281
0.031419491
-64.56144349
-0.076682374
-0.060729433
0.043717037
2.277602524
1.25204918
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.738056013
1.737067428
1.551500484
1.687622999
1.25637017
2.195930297
9.225628115
3.141949145
-6456.144349
-4.861662532
-3.850246072
2.548703247
123.3907158
123.7351242
123.3205326
123.3605513
110.1464819
6457.08387
151.7915336
151.8693696
113.0029367
113.0685106
161.1761978
161.196348
√∑ M2
112.1386085
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
Sin
Incertidumbre 2005 con año base 1990
INEGEI 2005 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
16,254.000
102.480
128.940
38.967
38.967
0.000
19.543
0.000
11.130
0.000
1.271
254.940
453.810
86.893
154.597
184.907
294.097
3,948.210
6,740.370
1,328.536
1,650.066
3,808.140
8,207.220
∑C
∑D
16,410
33,954
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
45.44902566
0.424912436
0.128412928
0.06440353
-68.37929422
-0.005063703
0.010691651
0.105692591
-5436.15389
-0.254197884
0.53672086
10.56925914
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.495498003
0.509463222
0.969173725
17.8271499
4.364148247
18.86699618
√∑ H2
9.492058988
0.103051133
0.035109171
-68.53520419
-0.086862785
-0.066904834
0.019930142
2.441640379
1.258196721
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.780065898
1.77916518
1.590510365
1.707196426
1.242018282
2.155178118
X-160
D
∑C
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
D
D
D
D
R
R
R
R
D
D
D
D
D
D
R
R
R
R
R
R
I● F
Nota C
10.30511335
3.510917132
-6853.520419
-5.507100576
-4.241766495
1.161927301
J ● E ●√ 2
Nota D
%
%
179.2107487
5439.10706
177.9358867
177.9360683
141.4213562
141.4223747
#¡DIV/0!
126.3731454
126.7926151
126.3092003
126.357986
112.9159307
6854.450535
153.5520456
153.6507691
111.7120707
111.7925727
158.1850823
158.1893496
√∑ M2
115.2809582
Sin
Incertidumbre 2006 con año base 1990
INEGEI 2006 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
17,283.000
102.480
131.040
38.967
38.967
0.000
16.922
0.000
9.660
0.000
1.116
254.940
458.430
86.893
156.209
184.907
297.346
3,948.210
7,864.500
1,328.536
1,714.827
3,808.140
8,737.890
∑C
∑D
16,410
36,710
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
44.69832595
0.399414168
0.118772679
0.05157789
-79.14972318
-0.005984447
0.012371279
0.091514653
-6292.402993
-0.300419219
0.621038197
9.151465331
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.397309503
0.476130097
0.906319029
19.23876113
4.194945264
18.57894573
√∑ H2
9.490021151
0.097185739
0.033135583
-79.30192743
-0.058833423
-0.076546733
0.013311393
2.596214511
1.278688525
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.798187809
1.797716732
1.608081901
1.991915324
1.29076442
2.294529613
D
∑C
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
D
D
D
D
R
R
R
R
D
D
D
D
D
D
R
R
R
R
R
R
I● F
Nota C
9.71857393
3.313558287
-7930.192743
-3.730039012
-4.853062848
0.776054219
J ● E ●√ 2
Nota D
%
%
190.556132
6295.287687
180.8338654
180.8341149
141.4213562
141.4227198
#¡DIV/0!
127.6596837
128.0290807
127.6262403
127.669248
114.1633959
7931.014451
179.1607971
179.1996217
116.0964925
116.1978821
168.4131592
168.4149472
√∑ M2
123.564031
Sin
Incertidumbre 2007 con año base 1990
INEGEI 2007 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
18,312.000
102.480
133.140
38.967
38.967
0.000
16.922
0.000
9.660
0.000
1.116
254.940
483.840
86.893
164.827
184.907
309.875
3,948.210
7,998.060
1,328.536
1,746.323
3,808.140
8,861.160
∑C
∑D
16,410
38,076
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
45.66054811
0.391256303
0.114511675
0.049727518
-84.45668333
-0.006376285
0.013203814
0.091514653
-6714.306324
-0.32008949
0.662831462
9.151465331
201.9015153
6717.341263
183.731844
183.7321228
141.4213562
141.4229095
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.42185256
0.484374363
0.91062539
18.86356861
4.118734258
18.16512053
√∑ H2
9.496331887
0.111734814
0.038068618
-84.63788261
-0.070693392
-0.081362561
0.001533676
2.750788644
1.299180328
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.89785832
1.896896183
1.675844073
2.025743312
1.314471719
2.326899746
11.17348142
3.806861834
-8463.788261
-4.481961069
-5.158386399
0.089413295
134.7356441
134.6673387
118.9740711
182.2034211
118.2288214
170.789052
D
D
D
D
D
D
R
R
R
R
R
R
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
135.1981527
134.7211353
8464.624419
182.2585379
118.3412995
170.7890754
√∑ M2
127.4693254
Sin
Incertidumbre 2008 con año base 1990
INEGEI 2008 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
19,530.000
102.480
135.870
38.967
38.967
0.000
10.248
0.000
9.660
0.000
0.682
254.940
475.650
86.893
162.037
184.907
534.422
3,948.210
8,309.490
1,328.536
1,744.370
3,808.140
9,097.620
∑C
∑D
16,410
40,049
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
46.29837991
0.379607322
0.108869938
0.028632735
-92.13873035
-0.006960771
0.014406403
0.055424078
-7325.029063
-0.349430711
0.723201445
5.542407805
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.328918986
0.452715328
1.493122132
18.6325278
3.911434098
17.73101954
√∑ H2
9.506062686
0.105863494
0.03606602
-92.33294559
-0.080620575
-0.091207958
-0.011928376
2.933753943
1.325819672
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.865733114
1.864787727
2.890220489
2.104622095
1.31300168
2.388993052
X-161
D
∑C
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
D
D
D
D
R
R
R
R
D
D
D
D
D
D
R
R
R
R
R
R
I● F
Nota C
10.58634943
3.606602017
-9233.294559
-5.111344485
-5.782584551
-0.695424333
J ● E ●√ 2
Nota D
%
%
215.3307445
7328.193373
187.4992162
187.4995418
141.4213562
141.4232054
#¡DIV/0!
132.4549627
132.8773417
132.3878464
132.436964
205.1869285
9235.574162
189.298093
189.3670876
118.0966002
118.2380872
175.3465568
175.3479358
√∑ M2
132.819267
Sin
Incertidumbre 2009 con año base 1990
INEGEI 2009 MEXICO
A
Categoría de fuentes del IPCC
B
C
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
20,853.000
102.480
145.950
38.967
38.967
0.000
10.248
0.000
9.660
0.000
0.682
254.940
483.210
86.893
164.641
184.907
543.004
3,948.210
8,450.610
1,328.536
1,806.153
3,808.140
9,235.380
∑C
∑D
16,410
41,742
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Total
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
47.4302964
0.391236035
0.104455598
0.027471766
-98.7112757
-0.006990599
0.015437963
0.055424078
-7847.546418
-0.350928051
0.77498573
5.542407805
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.295300887
0.441339445
1.455586229
18.18064187
3.885757462
17.26968555
√∑ H2
9.512190665
0.102636146
0.034985144
-98.94475534
-0.096796537
-0.095789147
-0.027431693
3.132492114
1.424180328
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.89538715
1.894755619
2.936634092
2.140364874
1.359506254
2.425168192
D
∑C
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
D
D
D
D
R
R
R
R
D
D
D
D
D
D
R
R
R
R
R
R
I● F
Nota C
10.26361462
3.498514415
-9894.475534
-6.136900472
-6.073031903
-1.599267699
J ● E ●√ 2
Nota D
%
%
229.9176659
7850.913763
201.4095135
201.4098192
141.4213562
141.4234797
#¡DIV/0!
134.5602071
134.9510694
134.5153725
134.56086
208.4819936
9896.671705
192.5129409
192.6107317
122.2794068
122.4301231
178.0017284
178.0089126
√∑ M2
137.306156
Sin
Incertidumbre 2010 con año base 1990
INEGEI 2010 MEXICO
A
Categoría de fuentes del IPCC
B
C
Total
E
F
CALCULO Y PRESENTACIÓN DE LA INCERTIDUMBRE EN EL NIVEL 1
G
H
I
J
Gas
Incertidumbre
Incetidumbre
Emisiones año
Emisiones año t en los datos de en el factor de
base
actividad
emisión
CH4
CH4
N2 O
CO2
CH4
N2 O
CH4
N2 O
CO2
CH4
N2 O
CH4
Gg equivalente Gg equivalente
CO2
CO2
6,657.000
22,113.000
102.480
150.150
38.967
38.967
0.000
10.248
0.000
5.880
0.000
0.682
254.940
492.240
86.893
167.648
184.907
552.435
3,948.210
8,946.420
1,328.536
1,836.843
3,808.140
9,516.570
∑C
∑D
16,410
43,831
Datos de
entrada
Total
Sitos de Eliminación de Desechos
Tratamiento Biológico
Tratamiento Biológico
Incineración de RPH
Incineración de RPH
Incineración de RPH
Incineración Abierta
Incineración Abierta
Incineración Abierta
Aguas Residuales Municipales
Aguas Residuales Municipales
Aguas Residuales Industriales
D
Datos de
entrada
Incertidumbre
combinada
K
Incertidumbre
en la tendencia
Incertidumbre
en las
combinada
emisiones
como % del
Sensibilidad de Sensibilidad de
nacionales
total de
tipo A
tipo B
introducida por
emisiones
la
nacionales en
incertidumbre
el año t
en el factor de
emisión
L
M
N
O
P
Q
Incertidumbre
en la tendencia
en las
emisiones
nacionales
introducida por
la
incertidumbre
en los datos de
actividad
Incertidumbre
introducida en
la tendencia en
las emisiones
nacionales
totales
Indicador de
calidad del
factor de
emisión
Indicador de
calidad de los
datos de
actividad
Números de
referencia del
dictamen de
expertos
Numero de
referencia de
la nota al pie
√K2 + L2
Nota E
Nota E
Datos de
entrada
Datos de
entrada
√ E2 + F2
G● D
∑D
Nota B
%
%
%
%
%
%
%
51.9
100
100
50.2
79.5
50.2
50.2
100
94.94135032
111.8929846
111.8929846
111.8929846
47.89838425
0.383306327
0.099475842
0.026162093
-106.8485223
-0.007529825
0.016711563
0.055424078
-8494.457523
-0.377997222
0.83892045
5.542407805
243.809972
8497.955749
207.2054707
207.2058155
141.4213562
141.4238445
#¡DIV/0!
D
D
D
D
R
R
R
R
50.2
50.2
50.2
63.6
63.6
51.9
100
100
100
63.4
63.4
58.3
111.8929846
111.8929846
111.8929846
89.80267257
89.80267257
78.05446816
1.256601442
0.427975619
1.410269115
18.3297414
3.76338884
16.94712407
√∑ H2
9.515378552
0.104995671
0.035737148
-107.1078871
-0.097218169
-0.104220994
-0.039817266
3.321766562
1.465163934
1
#¡DIV/0!
#¡DIV/0!
#¡DIV/0!
1.930807249
1.929361399
2.98763811
2.265943301
1.38260687
2.499007389
10.4995671
3.573714842
-10710.78871
-6.163631892
-6.607610989
-2.32134662
137.0748046
136.9721586
212.1029484
203.8079648
124.3571682
183.4213544
D
D
D
D
D
D
R
R
R
R
R
R
X-162
D
∑C
I● F
Nota C
J ● E ●√ 2
Nota D
%
%
137.4763361
137.0187713
10712.88861
203.9011448
124.5325893
183.4360431
√∑ M2
142.6388408
Sin
Apéndice C
Notas Sobre Aseguramiento y Control de Calidad
X-163
C.1 Procedimiento General.
El Procedimiento general seguido para estimar las emisiones de metano de los residuos,
para el periodo considerado 1990-2010 consta de los siguientes pasos:
6. Aplicar para cada fuente de emisiones, el árbol de decisiones correspondiente, para
definir el método y nivel de exactitud a seguir para la estimación de las emisiones.
7. Revisar y establecer los parámetros requeridos por la metodología resultante en el
punto anterior.
8. Ordenar, clasificar y procesar la información requerida por la metodología
seleccionada.
9. Correr el modelo FOD y las hojas de cálculo de la metodología, obtener los
resultados para cada caso.
10. Determinar la incertidumbre de los resultados obtenidos, analizar y discutir los
mismos, y emitir las conclusiones y observaciones conducentes.
C.2 IPCC Waste Model (FOD) y Worksheets de la Metodología 2006.
El método de descomposición de primer orden (FOD) propuesto por la metodología
2006, se calcula con el Waste Model del IPCC, es un programa en Excel que permite
calcular las emisiones de CH4 provenientes del manejo de los desechos sólidos
municipales e industriales en sitios de disposición final de cinco categorías, tales como
sitios no manejados de poca y gran profundidad, sitios manejados en condiciones
anaeróbias, sitios manejados en condiciones aerobias y anaerobias, y sitios sin categoría.
Consta de 20 hojas, correspondiendo la primera a las instrucciones del programa, la
segunda a los parámetros de entrada tales como año de inicio, contenido de carbono por
componente de los desechos, constantes de degradación de los desechos, tiempo para
inicio de CH4 de los desechos, y fracción de metano en el gas generado, entre otros. En las
siguientes cinco hojas se efectúa la carga por año de los parámetros anteriores y se
obtienen los resultados expresados en Gg de CH4/año. En las siguientes cuatro hojas se
muestran por año los parámetros calculados del carbono almacenado, se presenta la teoría
que fundamenta el método y tablas con los valores por defecto de los parámetros
propuestos por la metodología. En las restantes nueve hojas de cálculo se muestran los
resultados por componente de la basura incluyendo la de origen industrial.
La herramienta para efectuar el inventario en sus diferentes fuentes la metodología
incorpora 18 hojas de cálculo, las dos primeras para estimar las emisiones de CH4 y CO2
derivadas el tratamiento biológico de los desechos sólidos; las cuatro siguientes para
estimar las emisiones de CO2 derivadas de la incineración y la incineración abierta de
desechos sólidos y desechos líquidos fósiles; las cuatro hojas siguientes para la
estimación de las emisiones de CH4 y N2O derivadas de la incineración e incineración
abierta de desechos sólidos. Las siguientes ocho hojas de cálculo se emplean para la
estimación de las emisiones de las aguas residuales municipales e industriales; las tres
primeras de este grupo para estimar las emisiones de CH4 derivadas del tratamiento de
las aguas residuales municipales y las siguientes tres para las derivadas del tratamiento
de las aguas residuales industriales; las dos restantes estiman las emisiones de N2O de
las aguas residuales domésticas.
X-164
C.3 Desechos Sólidos Municipales en Sitos de Eliminación de Desechos
Existen dos opciones para calcular el inventario de emisiones de metano por esta fuente,
que son, como se muestra en el Arbol de Decisiones de la figura 3.1, La ruta seguida a
partir del inicio es la opción: SI, y después la opción: NO; llegando al Recuadro 2
Novel 2. Es decir “Estimar las emisiones usando el método FOD del IPCC con
parámetros por defecto y datos de actividad, específicos del país, de buena calidad.
La estimación de emisiones de CH4 del sector aplicando el Modelo FOD, se inició con
la alimentación de los parámetros de entrada solicitados por el Modelo FOD y que se
muestran en la tabla 3.1, tales como el país (México), el año de inicio (1950), la
composición de la basura (Waste by composition) la cual se obtuvo como promedio del
periodo de 1990 a 2010, el clima (Wet Temperate); así como el tiempo de inicio (Delay
Time), fracción de metano, factor de conversión de carbono a metano, factor de oxidación
de metano y almacenamiento de carbono. Como puede verse a excepción de los valores
correspondientes a la composición de los residuos sólidos, los valores corresponden a los
valores por defecto propuestos por el Modelo FOD. En la hoja MCF (Methane Correction
Factor) de la tabla 3.2, se empleo solo la parte de residuos sólidos municipales, por no
disponer de la información para este sector industrial. Esta hoja considera un periodo
fijado por el modelo de 1950 a 2030, y pide información sobre la fracción de residuos que
son depositados en sitios no manejados someros o profundos, así como anaeróbios o
semiaeróbios, y sitios no clasificados o sin categoría.
X-165
Tabla 3.1
Parameters
Country
Mexico
Region
Please enter parameters in the yellow cells. If no national data are available, copy the IPCC default value.
Help on parameter selection can be found in the 2006 IPCC guidelines
IPCC default value
Starting year
1950
DOC (Degradable organic carbon)
(weight fraction, wet basis)
Food waste
Garden
Paper
Wood and straw
Textiles
Disposable nappies
Sewage sludge
Industrial waste
Country-specific parameters
Value
Reference and remarks
1950
Range
0.08-0.20
0.18-0.22
0.36-0.45
0.39-0.46
0.20-0.40
0.18-0.32
0.04-0.05
Default
0.15
0.2
0.4
0.43
0.24
0.24
0.05
0.4295
0.11
0.1485
0.0104
0.0105
0.052
0
0-0.54
0.15
0
0.5
0.5
Range
0.1–0.2
0.06–0.1
0.05–0.07
0.02–0.04
0.05–0.07
0.06–0.1
0.1–0.2
Default
0.185
0.1
0.06
0.03
0.06
0.1
0.185
0.185
0.1
0.06
0.03
0.06
0.1
0
0.08–0.1
0.09
0
6
6
0.5
0.5
1.33
1.33
0
0.1
0%
0%
0%
0%
DOCf (fraction of DOC dissimilated)
Methane generation rate constant (k)
(years-1)
Food waste
Garden
Paper
Wood and straw
Textiles
Disposable nappies
Sewage sludge
Industrial waste
Delay time (months)
Fraction of methane (F) in developed gas
Conversion factor, C to CH4
Oxidation factor (OX)
Parameters for carbon storage
% paper in industrial waste
% wood in industrial waste
For Harwested Wood Products
calculations for Bulk waste option only:
X-166
Del periodo de 1950 a 1989 se consideró que la disposición se hizo en sitios sin categoría
por lo que al parámetro MCF le correspondió un valor de 0.6, en tanto que para el periodo
de 1990 a 2010 se emplearon las fracciones derivadas de los datos proporcionados por
SEDESOL (Cuadros 1,3 y4 del Apéndice 3).
Tabla 3.2
Methane Correction Factor (MCF)
This worksheet calculates a weighted average MCF from the estimated distribution of site types
Enter either IPCC default values or national values into the yellow MCF cells in row 12
Then enter the approximate distribution of waste disposals (by mass) between site types in the columns below.
Totals on each row must add up to 100% (see "distribution check" values)
IPCC default
Country-specific
value
MSW
UnUnManaged,
managed, managed,
semishallow
deep
Managed
aerobic
MCF
MCF
MCF
MCF
0.4
0.8
1
0.5
0.4
0.8
1
0.5
Uncategorised
MCF
0.6
Distribution
Check
0.6
0.4
Distribution of Waste by Waste Management Type
"Fixed" Countryspecifc value
Year
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
25%
%
30%
%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
25%
%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
21%
21%
21%
18%
17%
20%
27%
35%
52%
53%
47%
48%
48%
53%
54%
53%
55%
57%
58%
58%
62%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
5%
%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
12%
12%
12%
10%
10%
8%
8%
6%
3%
2%
8%
11%
11%
11%
11%
12%
10%
10%
9%
10%
8%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
15%
%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
67%
67%
67%
72%
73%
72%
65%
59%
45%
45%
45%
41%
40%
36%
36%
35%
35%
33%
33%
32%
29%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
Industrial
UnUnManaged,
managed, managed,
semishallow
deep
Managed aerobic
MCF
MCF
MCF
MCF
0.4
0.8
1
0.5
0.8
1
0.5
Uncategorised
MCF
0.6
Distribution
Check
0.6
Distribution of Waste by Waste Management Type
Total
(100%)
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
X-167
20%
%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
30%
%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
30%
25%
%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
5%
%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
20%
%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
Total
(100%)
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
100%
De la misma manera en la hoja del modelo correspondiente a los datos de la actividad,
se emplearon los valores por defecto para el periodo 1950 a 1089, y apara el siguiente
periodo los datos derivados de la información proporcionada por SEDESOL.
Tabla 3.3
MSW activity data
Enter population, waste per capita and MSW waste composition into the yellow cells.
Help and default regional values are given in the 2006 IPCC Guidelines.
Industrial waste activity data must be entered separately starting in Column Q.
IPCC Regional defaults
650
58%
34%
0%
23%
6%
4%
0%
33%
Composition of waste going to solid waste disposal sites
Waste
Plastics,
per
Total
% to
other
Year Population capita
MSW
SWDS Food Garden Paper Wood Textile Nappies inert
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
millions
kg/cap/yr
25.791017
135
26.584772
138
27.402955
140
28.24632
143
29.11564
146
30.011715
149
30.935367
152
31.887447
155
32.868827
158
33.880412
161
34.923129
164
36.068599
167
37.25164
170
38.473484
173
39.735405
177
41.038716
180
42.384775
184
43.774985
187
45.210794
191
46.693697
195
48.225238
199
49.825885
202
51.47966
206
53.188325
210
54.953703
214
56.777675
219
58.662188
223
60.609249
227
62.620935
232
64.699391
236
66.846833
241
68.163974
245
69.507067
250
70.876625
250
72.273168
250
73.697228
250
75.149348
250
76.63008
250
78.139989
250
79.679648
250
81.249645
260.2
83.141224
255.1
85.07684
250.2
87.05752
320
89.084312
325.7
91.15829
334.8
92.389599
342.8
93.637539
305.8
94.902336
310.9
96.184216
306.8
97.483412
315.7
98.612927
319
99.75553
321.4
100.911372
324.1
102.080606
328.5
103.263388
332.6
105.01741
336
106.801226
348.6
108.615341
352.4
110.460271
356.3
112.336538
356.6
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Gg
3481.787
3668.699
3836.414
4039.224
4250.883
4471.746
4702.176
4942.554
5193.275
5454.746
5727.393
6023.456
6332.779
6655.913
7033.167
7386.969
7798.799
8185.922
8635.262
9105.271
9596.822
10064.83
10604.81
11169.55
11760.09
12434.31
13081.67
13758.3
14528.06
15269.06
16110.09
16700.17
17376.77
17719.16
18068.29
18424.31
18787.34
19157.52
19535
19919.91
21141.16
21209.33
21286.23
27858.41
29014.76
30519.8
31671.15
28634.36
29505.14
29509.32
30775.51
31457.52
32061.43
32705.38
33533.48
34345.4
35285.85
37230.91
38276.05
39356.99
40059.21
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
58%
33%
33%
33%
28%
27%
28%
35%
41%
55%
55%
55%
59%
60%
64%
64%
65%
65%
67%
67%
68%
70%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
34%
42%
42%
42%
42%
42%
42%
42%
42%
42%
42%
42%
40%
40%
41%
41%
41%
42%
42%
42%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
8%
8%
11%
11%
11%
11%
11%
11%
11%
11%
11%
11%
11%
10%
10%
10%
10%
10%
11%
11%
11%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
X-168
%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
23%
12%
14%
14%
14%
14%
14%
14%
14%
14%
14%
14%
14%
15%
15%
15%
15%
15%
14%
14%
14%
14%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
%
%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
1%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
4%
1%
1%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
2%
1%
1%
1%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
4%
4%
3%
3%
3%
3%
3%
3%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
6%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
100%
Total
%
(=100%)
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
33%
100%
41%
100%
41%
103%
28%
100%
28%
100%
28%
100%
28%
100%
28%
100%
28%
100%
26%
100%
26%
100%
26%
100%
26%
100%
26%
101%
27%
100%
27%
100%
26%
100%
26%
100%
27%
100%
26%
100%
26%
100%
26%
100%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
0%
En la hoja siguiente del modelo se consideró un valor por defecto del 0.1 como factor de
oxidación del metano para el periodo completo de 1950 a 2030, considerado por el
modelo.
Tabla 3.4
Methane Recovery and methane oxidised in top layer (OX)
Enter the total amount of methane recovered
from all SWDS.
Amount of
Methane
Recovered
from SWDS
IPCC default
Year
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
References / remarks
Fraction
recovered
methane
0
Methane
oxidised
(OX)
0
Gg
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
5.0
5.0
5.0
5.0
5.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.01
0.01
0.01
0.01
0.01
0.03
0.04
0.05
0.05
0.06
0.07
0.08
0.09
0.11
0.12
0.14
X-169
Fraction
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
References/remarks
En la tabla 5 se presenta la hoja de resultados del modelo donde se resumen las
emisiones de CH4 derivadas de la Modelo FOD que considera el periodo completo. Para
considerar las emisiones del sector en el inventario para cada uno de los años, se
tomaron los valores correspondientes de la última columna
Tabla 3.5
Results
Country
Mexico
Enter starting year, industrial waste disposal data and methane recovery into the yellow cells.
MSW activity data is entered on MSW sheet
Methane generated
Year
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
Food
Garden
Paper
Wood
Textile
Nappies
Sludge
MSW
Industrial
Total
Methane
recovery
Methane
emission
A
B
C
D
E
F
G
H
J
K
L
M = (K-L)*(1OX)
Gg
Gg
Gg
Gg
Gg
Gg
Gg
Gg
Gg
Gg
Gg
Gg
0
10
19
27
34
40
46
52
57
62
67
72
77
82
88
93
98
104
110
116
122
129
136
144
151
159
168
177
187
197
207
218
229
240
250
260
269
277
285
293
300
288
278
279
283
288
296
324
356
428
488
538
594
644
699
749
796
842
899
961
1,019
1,085
902
750
623
518
430
358
297
247
205
171
142
118
98
81
68
56
47
39
32
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
3
4
6
7
8
10
13
16
19
22
25
29
32
35
38
41
44
47
51
55
49
45
40
37
33
30
27
25
22
20
18
16
15
13
12
11
10
9
8
0
1
2
2
3
4
5
6
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
23
24
26
27
29
30
32
34
36
38
40
42
43
45
47
49
51
49
48
47
47
46
46
46
47
49
52
54
57
60
64
67
71
75
78
82
86
91
85
80
76
71
67
63
59
56
53
50
47
44
41
39
37
35
33
31
29
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
2
2
3
4
5
6
7
8
9
10
11
12
13
14
15
13
12
11
10
9
8
7
7
6
5
5
4
4
4
3
3
3
2
2
X-170
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
11
20
29
37
44
51
58
64
70
76
82
87
93
99
106
112
119
126
133
141
149
157
166
175
184
194
205
216
228
240
253
266
279
291
302
313
323
333
343
352
340
331
333
338
343
353
383
418
498
564
621
683
741
803
861
915
969
1,035
1,104
1,171
1,246
1,051
888
751
636
540
460
392
335
287
247
212
183
159
138
121
105
93
82
72
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
5
5
5
5
5
10
10
10
10
10
10
10
10
10
10
10
0
10
18
26
33
40
46
52
57
63
68
73
79
84
90
95
101
107
113
120
127
134
141
149
157
166
175
184
194
205
216
228
239
251
262
272
282
291
300
308
317
306
298
299
304
308
317
345
376
448
508
559
615
666
722
774
823
872
930
993
1,053
1,121
945
798
675
568
482
409
348
297
249
213
182
156
134
115
99
86
74
64
56
C.4 Tratamiento Biológico de los Desechos
Para estimación de CH4 y N2O se efectuó empleando la metodología Nivel 1, es decir
empleando los datos locales de la actividad y los factores de emisión por defecto.
Empleando las hojas de trabajo 4B correspondientes. En el primer caso se multiplicó la
cantidad de residuos tratados por un factor de emisión de 10 g CH4/kg de desecho
tratado, y en el segundo por 0.6 g N2O/kg de desecho tratado para la producción de
composta. Que corresponden de acuerdo al cuadro 4.1 tomado de las Directrices del
IPCC, a la preparación de abono orgánico referido al peso seco en ambos casos.
C.5 Incineración e Incineración Abierta
Partiendo del árbol de decisiones correspondiente, se procedió a determinar las
emisiones de CO2, CH4 y N2O con la ayuda de las hojas de trabajo 4C1 y 4C2 de la
metodología 2006.
En la figura 5.1 se muestra el árbol de decisión para las emisiones de CO2 tanto para la
incineración como la incineración abierta de los desechos. Para ello se siguieron las
opciones NO, NO y NO mostradas en el diagrama hasta llegar a “Utilizar la cantidad
total estimada anteriormente y los datos por defecto sobre factores de emisión y estimar
la emisiones de CO2” de acuerdo al Recuadro 1: Nivel 1 del árbol en cuestión. Los
valores de actividad considerados corresponden a los valores de desechos sólidos
dispuestos a cielo abierto y que generalmente son quemados de manera abierta, no
existen plantas de incineración de desechos en nuestro país, excepto desechos
hospitalarios considerados en este inventario y plantas de cemento que los incineran
para generar energía, por lo tanto no fueron consideradas sus emisiones en esta sección
del inventario, incluyendo los desechos fósiles líquidos. Los factores de emisión
empleados para calcular con las hojas de trabajo citadas anteriormente, son los valores
por defecto del cuadro 5.2 tomado de las Directrices del IPCC 2009, para DSM y
desechos hospitalarios.
X-171
X-172
X-173
En la figura 5.2 se presenta el árbol de decisión para elegir el método de estimación de
las emisiones de CH4 y N2O de la incineración e incineración abierta. Se siguió la
misma ruta que las emisiones anteriores, es decir NO, NO, y NO, hasta llegar al
Recuadro 1: Nivel 1, es decir “Estimar la cantidad estimada anteriormente y los factores
de emisión por defecto y estimar las emisiones de CH4 y N2O con la ayuda de las hojas
de trabajo citadas.
Los factores de emisión por defecto corresponden también a los de las Directrices IPCC
2006 declarada de 6,500 g CH4/ton (pág5.22) y resumidas en el cuadro 5.6 para el valor
de 150 g N20/ ton desechos incinerados.
X-174
C.6 Aguas Residuales Municipales e Industriales
La primera etapa sugerida por las directrices de la metodología del PICC 2006, es el de
establecer las vías que dan lugar al balance de aguas residuales tanto municipales como
industriales. Como se puede ver en la figura 6.1, se debe tener información sobre la
fracción de aguas servidas que son colectadas y no colectadas, las que son tratadas y no
son tratadas hasta llegar al balance general por cada año considerado, incluyendo fosas
sépticas y disposición en ríos, suelos y causes naturales.
X-175
Con el auxilio del árbol de decisión mostrado en la figura 6.2, en nuestro caso se
siguieron las opciones de Inicio, SI, NO, NO y NO, hasta llegar al Recuadro 1: Nivel 1
“Utilizar los factores de emisión por defecto (Bo, MCF, etc.) y estimar las emisiones
con la ayuda de las hojas de trabajo de la metodología de la serie 4D1 y 4D2.
Las hojas de trabajo requieren de datos de actividad tales como la población del país, las
tecnologías y procesos empleados para el tratamiento de las aguas residuales, para ello se
obtuvo esta información de la Comisión Nacional del Agua (CNA), y de los censos y
conteos del Instituto Nacional de Estadística Geografía e Informática (INEGI), para
desarrollar las series correspondientes al periodo considerado en este inventario.
X-176
De acuerdo a las Directrices del IPCC 2006 resumidas en el cuadro 6.1, se puede observar
cualitativamente en función de las vías de tratamiento de las aguas residuales, el potencial
de emisiones derivado de estas vías.
En lo que se refiere a los factores de emisión para esta fuente de emisiones se tomaron del
cuadro 6.3 una vez definidas las fracciones de las vías de tratamiento solicitadas por las
hojas de trabajo 4D1 y 4D2 de la metodología. Anteriormente estos factores se fijaban de
acuerdo al criterio del compilador del inventario considerado como conocedor sobre el
tema.
Para calcular la cantidad de materia orgánica degradable presente en las aguas residuales,
se empleó la hoja de trabajo 1 de la serie 4D1, multiplicando el número de habitantes del
país por un factor de emisión por defecto propuesto por la metodología de 18.25
kgDBO/habitante/año, que equivale a un valor de 50gDBO/habitante/día, que de acuerdo
con los valores por defecto resumidos en el cuadro 6.4 para diferentes países,
correspondería al valor mostrado para Brasil, de economía similar a la de nuestro país.
De acuerdo con la hoja de trabajo 2 de la serie 4D1, los factores de emisión específicos se
estimaron en función del factor de emisión global por defecto de 0.6 kgCH4/kgDBO,
multiplicado para su corrección por la fracción del tipo de tratamiento correspondiente a
Planta Aeróbica, Planta Anaeróbica, disposición en mar, río suelo y pozo séptico de
acuerdo a los datos de INEGI y CNA que debieron ser procesados como ya se comentó
anteriormente.
X-177
X-178
Para estimar las emsiones de N2O en las aguas residuales muncipales se emplearon las
hojas de trabajo de la misma serie 4D1 para las emsiones de nitrógeno en el efluente.
Para ello partiendo de los datos de actividad tales como el número de habitantes para el
año correspodiente. En lo que se refiere a los factores de emisón se emplearon los
factores por defecto resumidos en el cuadro 6.11 siguiente, tomado de las Directrices
IPCC 2006, así como un consumo de 30.514 kg de carne/persona/año tomado de un
estudio nacional publicado y referido en este inventario.
X-179
Aguas Residuales Industriales.
El árbol de decisiones de la figura 6.3 se siguieron las opciones: NO, SI, NO, hasta
llegar al Recuadro 2: Nivel 2 utilizar los factores de emisión específicos del país y
estimar las emisiones de CH4, partiendo de una serie desarrollada en base a información
existente para años recientes y extrapolada para los primeros años del periodo en
cuestión.
X-180
La hoja de trabajo 1 de la serie 4D2, pide como inicio las toneladas totales de producto por
año para la industria considerada, esta información como tal no existe en nuestras fuentes
de información oficiales, pero si existe el resultado del producto de las primeras dos
columnas y que se reporta en términos de m3/año de agua residual en la segunda columna
para cada sector productivo considerado.
En lo que se refiere al factor de emisión se parte de la información para el Tipo de
Tratamientos que de manera genérica corresponde al tratamiento primario, secundario y
terciario. En términos de la Demanda Biológica de Oxígeno (BOD en inglés) se empleó el
valor de Bo de 0.6 kgCH4/kg BOD. Los valores para MCF por lo tanto considerados
fueron de 0.2, 0.3 y 0.1 respectivamente para los tipos de tratamiento citados y propuesto
como valores por defecto de acuerdo al cuadro 6.8 siguiente. Para finalmente obtener en la
cuarta columna, el factor de emisión para cada tipo de tratamiento en la hoja de trabajo 3
de la serie 4D2.
X-181
Apéndice D
Información Recopilada
X-182
INFORMACIÓN SOBRE RESIDUOS SÓLIDOS MUNICIPALES
CUADRO 1.
NÚMERO DE INSTALACIONES Y CAPACIDAD DE DISPOSICIÓN DE RESIDUOS
SOLIDOS URBANOS
(Miles de Toneladas)
Fuente:
Secretaría de Desarrollo Social, Dirección General de Equipamiento e Infraestructura en
Zonas Urbano-Marginadas. 2010
Notas
1.-
Con la publicación de la Ley General para a Prevención y Gestión Integral de Residuos, lo que se conocía como residuos sólidos municipales, pasa a ser
residuos sólidos urbanos.
2.3.-
El número de "Sitios no Controlados" no se tiene registrado ya que comúnmente se trata de tiraderos clandestinos.
La capacidad de los "Tiraderos a cielo abierto" se calcula con base en el total generado de residuos sólidos municipales, menos lo dispuesto en rellenos
sanitarios y rellenos de tierra controlados, menos lo recuperado y reciclado. A partir de 1995 las cifras reportadas bajo este concepto han sido modificadas
por la fuente, debido a la corrección en las cifras correspondientes a reciclaje.
La capacidad para todos los casos está reportada en miles de toneladas y se refiere a la cantidad de basura que reciben anualmente cada uno de los
sitios.
Los cálculos de la generación para el año 2004, se hicieron con estricto apego a las proyecciones de población de CONAPO, que resultaron ser
4.5.6.-
Concepto
Lugares de entierro
Número
Capacidad
Cobertura
Rellenos sanitarios
Rellenos de tierra controlados
Sitios no controlados
(Tiraderos a cielo abierto)
Número
Capacidad
Número
Capacidad
Número
Capacidad
ligeramente superiores a los datos de población que se manejaron por esta Sedesol; razón por la que se podrá observar un ligero incremento más alla de
las tendencias que se venían observando del 2000 al 2003.
En el 2006 el Sistema Metropolitano de Procesamiento de Desechos (SIMEPRODE), construyó y está operando 7 rellenos sanitarios en el estado de
Nuevo León, unos locales y otros regionales.
Con recursos parciales del programa Hábitat de construyeron 5 durante el 2007.
En tanto que en el 2008 se construyeron 11 rellenos nuevos, en 3 se realizaron ampliaciones, todo con recursos parciales de Programa Hábitat y 3
rellenos nuevos con recursos del Programa Microrregiones, de ellos 7 son regionales.
Durante el 2009, las inversiones del Programa Hábitat en la Sedesol, continuó apoyando en diversos municipios para mejorar la operación de rellenos
sanitarios, así mismo se tuvo inversión para construir 3 rellenos sanitarios nuevos, en tanto que con recursos de Programa Microrregiones se tienen
reportados la construcción de 5 rellenos sanitarios y 1 más por el Gobierno del Estado de Morelos; de todos ellos 5 son regionales.
1995
1996
1997
91
92
97
1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010
97
97
76
77
84
110
112
118
127
138
154
161
206
8 507.0 11 179.0 11 927.5 16 884.6 16 936.1 16 912.3 18 604.6 19 210.8 21 140.3 22 305.0 22 911.0 23 535.6 24 691.5 25 368.2 25 368.2 28 240.4
27.9%
35.0%
40.7%
55.3%
54.7%
55.0%
59.1%
59.7%
64.2%
64.5%
64.7%
65.1%
67.0%
67.5%
67.5%
70.5%
30
31
46
66
70
71
64
68
89
90
95
104
114
128
137
186
5 952.0
8 573.0 10 270.0 15 877.1 16 428.7 14 490.5 15 252.7 15 579.9 17 431.0 18 586.3 18 832.4 19 772.1 20 846.6 21 822.6 21 822.6 24 910.4
61
61
51
31
27
5
13
16
21
22
23
23
24
26
24
20
2 555.0
2 606.0
1 657.5
1 007.5
507.5
2 421.8
3 351.9
3 630.9
3 709.3
3 718.7
4 078.6
3 763.5
3 844.9
3 545.6
3 545.6
3 330.0
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
nd
21 283.6 20 027.2 16 655.1 12 945.9 13 286.4 13 096.5 12 141.9 12 182.4 10 954.8 11 401.8 11 344.0 11 423.4 10 971.3 10 880.0 10 880.0 10 123.4
CUADRO 2.
Fuente: SEDESOL
X-183
CUADRO 3.
Generación y disposición de residuos sólidos urbanos
(Las cantidades están dadas en miles de toneladas, excepto la generación anual per-capita que esta dada en kilogramos por año)
Fuente: Secretaría de Desarrollo Social, Dirección General de Equipamiento e Infraestructura en Zonas Urbano-Marginadas. 2010
Notas
Total de residuos sólidos urbanos generados: Se refiere a la basura producida en las ciudades, la que incluye desechos generados en las casas habitación y en otras fuentes como son
comercios, instituciones, lugares de recreación y otros, los estudios de generación se realizan siguiendo la metodología estipulada en las Normas Mexicanas existentes. A partir de 1997 las
cifras se ajustan con base en estudios de generación per cápita llevados a cabo en pequeñas comunidades, donde se ha encontrado que dicha generación es del orden de 200 a 350 grs,
cantidades inferiores a las reportadas para los años anteriores al año de referencia.
La disposición final se refiere al depósito permanente de los residuos en un sitio, ésta puede ser en condiciones adecuadas para evitar daños a los ecosistemas, o en tiraderos a cielo abierto
con impactos negativos a la salud y al medio ambiente, afectando la calidad de vida y el bienestar social.
1.-
2.-
La parte orgánica de la basura en su proceso de descomposición natural (en la parte anaerobia), genera distintos gases conocidos como biogás, en el que aproximadamente el 50% es CO2 y
el otro 50% es gas metano, mismo que debe quemarse (acuerdos internacionales para el control de emisiones de gases de invernadero y por balance estequiometrico se reducen los gases de
invernadero al 9.5% ), lo deseable es aprovechar su poder calorífico para generar alguna fuente de energía; cuando la descomposición es controlada con un proceso aeróbico, se obtiene un
mejorador de suelo conocido como composta.
La basura generada y no recolectada, es dispuesta por las diferentes fuentes de generación en tiraderos clandestinos, lotes baldios o es quemada en los traspatios, por lo que su disposición
final es inadecuada, por lo tanto está incluida en los volúmenes consignados en el rubro de tiraderos a cielo abierto
Las cantidades indicadas como reciclaje, corresponde a los materiales recuperados en los sitios de disposición final. El total que se recicla en el país es una cifra mayor ya que incluye lo que se
separa en diversas fuentes de generación y es llevada por los usuarios a centros de acopio (es aquí donde puede aumentar con los programas de separación en las fuentes), más lo que se
recupera en contenedores y vehículos de recolección.
3.-
4.5.6.-
La disposición final se refiere al depósito permanente de los residuos en un sitio, ésta puede ser en condiciones adecuadas para evitar daños a los ecosistemas, o en tiraderos a cielo abierto
con impactos negativos a la salud y al medio ambiente, afectando la calidad de vida y el bienestar social.
7.-
Los cálculos de la generación para el año 2004 y 2005, se hicieron con estricto apego a las proyecciones de población de CONAPO, que resultaron ser ligeramente superiores a los datos de
población que se manejaron por esta Sedesol; razón por la que se podrá observar un ligero incremento más alla de las tendencias que se venían observando del 2000 al 2003; los datos para
el año 2006 son estimados, los definitivos se darán a conocer al inicio del 2007.
Los indicadores para el 2010, se realizaron tomando los datos definitivos del Censo de Población y Vivienda INEGI-2010.
8.1992
Concepto
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
21 967.5 28 089.5 29 472.4 30 509.6 31 959.4 29 272.4 30 550.5 30 952.0 30 733.0 31 488.6 32 173.6 32 915.7 34 602.0 35 405.0 36 135.0 36 865.0 37 595.0 38 325.0 40 058.8
250.2
320.0
325.7
334.8
342.8
305.8
310.9
306.8
315.7
319.0
321.4
324.1
328.5
332.6
336.0
348.6
352.4
356.3
356.6
Total de residuos sólidos urbanos generados
Generación anual per-capita (kilogramos)
Tipo de basura:
Papel, cartón, productos de papel
Textiles
Plásticos
Vidrios
Metales
Basura de comida, de jardines y otros materiales
orgánicos
Otro tipo de basura (residuos finos, material de
demoliciones, hule, pañal desechable, etc.)
RECICLABLES
Método
Recolección
Disposición final total
Rellenos de tierra controlado (rellenos sanitarios).
3 090.8
3 952.2
4 146.8
4 292.7
4 496.7
4 118.6
4 298.5
4 354.9
4 324.1
4 430.4
4 526.8
4 904.5
5 160.0
5 275.0
5 388.0
5 489.3
5 199.4
5 300.4
5 540.2
327.3
962.2
418.5
1 230.3
439.1
1 290.9
454.6
1 336.3
476.2
1 399.8
436.2
1 282.1
455.2
1 338.1
461.2
1 355.7
457.9
1 346.1
469.2
1 379.2
479.4
1 409.2
497.0
2 014.4
520.1
2 115.8
530.0
2 161.8
542.0
2 208.0
552.0
2 223.0
537.6
4 094.1
548.0
4 173.6
572.8
4 362.4
1 296.1
636.0
1 657.3
814.6
1 738.9
854.7
1 800.1
884.8
1 885.6
926.8
1 727.1
848.9
1 802.5
886.0
1 826.2
897.6
1 813.2
891.3
1 857.8
913.2
1 898.2
933.0
2 156.0
1 046.7
2 210.0
1 160.0
2 262.0
1 186.1
2 309.0
1 210.0
2 341.0
1 298.0
2 210.6
1 293.2
2 253.5
1 318.3
2 355.5
1 377.9
11 512.0
14 718.9
15 443.6
15 987.0
16 746.7
15 338.8
16 008.5
16 218.8
16 104.1
16 500.0
16 859.0
16 592.8
17 440.0
17 968.0
18 335.0
18 576.0
19 707.3
20 090.0
20 998.8
4 143.2
5 297.7
5 558.5
5 754.1
6 027.5
5 520.8
5 761.8
5 837.5
5 796.2
5 938.7
6 067.9
5 704.3
5 996.1
6 022.0
6 143.0
6 385.7
4 552.8
4 641.2
4 851.2
6 312.4
8 072.9
8 470.4
8 768.5
9 185.2
8 412.9
8 780.2
8 895.6
8 832.7
9 049.8
9 246.7
10 618.6
11 165.9
11 414.9
11 657.0
11 903.3
13 334.9
13 593.8
14 208.8
15 377.3
19 662.7
20 630.7
21 357.0
22 371.3
22 539.8
25 854.9
26 195.0
26 009.3
26 648.8
27 669.3
28 636.6
30 696.5
31 268.5
31 928.8
32 584.9
33 880.8
34 719.2
37 010.3
4 641.810 4 935.180 5 058.559 5 952.000 8 573.000 10 269.990 15 877.140 16 428.650 14 490.500 15 252.666 15 579.892 17 431.000 18 586.340 18 832.400 19 772.100 20 846.600 21 822.600 22 175.089 24 910.373
Sitios controlados (sin ser rellenos sanitarios, pero con
2 710.130 2 833.313 2 915.438 2 555.000 2 606.000 1 657.480 1 007.490
algún control para no ser tiraderos a cielo abierto).
Sitios NO Controlados(Tiraderos a cielo abierto4)
507.490 2 421.775 3 351.895 3 630.875 3 709.300 3 718.650
4 078.600
3 763.500
3 844.900
3 545.600
3 924.911
3 330.011
14 098.120 19 659.090 20 803.890 21 283.630 20 027.250 16 655.120 12 945.920 13 286.450 13 096.470 12 141.930 12 182.370 10 954.800 11 401.970 11 344.000 11 423.400 10 971.300 10 880.000 10 725.000 10 123.366
Reciclaje
Food
Paper
Textiles
Nappies
517.480
661.960
694.550
718.990
753.160
689.830
719.950
729.420
724.250
742.060
780.470
820.500
895.040
1,150.000
1,176.000
1,202.200
1,346.800
1,500.000
1,695.000
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.524
0.1407
0.0149
0.1886
0.5041
0.149
0.0151
0.1733
0.504 0.5075 0.5074 0.50389
0.1491 0.14899 0.14911 0.1489
0.015 0.01497
0.015 0.01497
0.1733 0.17009
0.17 0.17322
0.5242
0.1383
0.0143
0.1211
0.5242
0.1383
0.0143
0.1211
0.5242
0.1383
0.0143
0.1211
9.864
2.708
0.282
3.298
0.51913463
0.14251213
0.01483526
0.17356871
CUADRO 4.
RECOLECCIÓN Y DISPOSICIÓN FINAL DE RESIDUOS SÓLIDOS URBANOS
(Miles de Toneladas)
Fuente Secretaría de Desarrollo Social, Dirección General de Equipamiento e Infraestructura en Zonas Urbano-Marginadas. 2010
Notas
4.-
Con la publicación de la Ley General para a Prevención y Gestión Integral de Residuos, lo que se conocía como residuos sólidos municipales, pasa a ser residuos sólidos
urbanos.
A partir de 1997 las cifras reportadas de generación se han ajustado con base en estudios de generación per cápita llevados a cabo en pequeñas comunidades, donde se
encontró que dicha generación es del orden de 200 a 350 g, cantidades inferiores a las reportadas para años anteriores.
Los cálculos de la generación para el año 2004, se hicieron con estricto apego a las proyecciones de población de CONAPO, que resultaron ser ligeramente superiores a los
datos de población que se manejaron por esta Sedesol; razón por la que se podrá observar un ligero incremento más allá de las tendencias que se venían observando del
2000
al 2003. se refiere al depósito permanente de los residuos sólidos tanto en sitios habilitados total o parcialmente para minimizar los impactos negativos a la salud pública y al
La disposición
5.6.-
Algunos totales no coinciden con la suma de los parciales debido al redondeo de las cifras.
1.2.3.-
Método
Total de residuos sólidos
urbanos generados
Recolección
Disposición final
ambiente, en este caso rellenos sanitarios y rellenos de tierra controlados como en sitios no controlados. No todo lo que llega a estos últimos lo hace a través de los servicios
municipales
recolección,
ello los totales
dedisposición
recolecciónfinal
no se
coinciden.
La diferenciadeentre
el total depor
generación
y el de
debe a reciclaje de residuos recuperados.
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
21 967.5 28 089.5 29 472.4 30 509.6 31 959.4 29 272.4 30 550.5 30 952.0 30 733.0 31 488.6 32 173.6 32 915.7 34 602.0 35 405.0 36 135.0 36 865.0 37 595.0 38 325.0 40 058.8
15 377.3 19 662.7 20 630.7 21 357.0 22 371.3 22 539.8 25 854.9 26 195.0 26 009.3 26 648.8 27 669.3 28 636.6 30 696.5 31 268.5 31 928.8 32 584.9 33 880.8 34 719.2 37 010.3
70.0% 70.0% 77.0% 84.6% 84.6% 84.6% 84.6% 86.0% 87.0% 88.7% 88.3% 88.4% 88.4%
21 450.1 27 427.6 28 777.9 29 790.6 31 206.2 28 582.6 29 830.6 30 222.6 30 008.7 30 746.5 31 393.1 32 095.1 33 706.8 34 255.0 34 959.0 35 662.8 36 248.2 36 825.0 38 363.8
Rellenos sanitarios
4 641.8
4 935.2
5 058.6
5 952.0
8 573.0 10 270.0 15 877.1 16 428.7 14 490.5 15 252.7 15 579.9 17 431.0 18 586.3 18 832.4 19 772.1 20 846.6 21 822.6 22 175.1 24 910.4
Rellenos de tierra controlado
2 710.1
2 833.3
2 915.4
2 555.0
2 606.0
Sitios no controlados
(Tiraderos a cielo abierto)
Reciclaje
1 657.5
1 007.5
507.5
2 421.8
3 351.9
3 630.9
3 709.3
3 718.7
4 078.6
3 763.5
3 844.9
3 545.6
3 924.9
3 330.0
14 098.1 19 659.1 20 803.9 21 283.6 20 027.2 16 655.1 12 945.9 13 286.4 13 096.5 12 141.9 12 182.4 10 954.8 11 401.8 11 344.0 11 423.4 10 971.3 10 880.0 10 725.0 10 123.4
517.5
662.0
694.6
719.0
753.2
689.8
720.0
729.4
X-184
724.3
742.1
780.5
820.5
895.0
1 150.0
1 176.0
1 202.2
1 346.8
1 500.0
1 695.0
INFORMACIÓN SOBRE AGUAS RESIDUALES MUNICIPALES
CUADRO 5.
Fuente: Censo 1990, página 2554.
CUADRO 6.
Fuente: Censo 2000, página 1495.
CUADRO 7.
Fuente: Conteo 1995.
X-185
CUADRO 8.
Procesamiento de la información generada por la CNA para la estimación de las emisiones de metano derivadas de las
aguas residuales municipales, esta información fué alimentada al Software 2006 del PICC y específicamente a las
Worksheet 4D1 Sheets 3 de 3. Los valores marcados con azul corresponden a los valores específicos alimentados al
Software.
Rubro
Población (No hab)
A
B
C
D
E
F
G
H
I
J
K
L
M
N
Ñ
O
P
Q
R
Viviendas Habitadas en el país
15
Viviendas con Drenaje conectado a la calle
Viviendas con Drenaje Conectado a Fosa Séptica16
No Recolectada (Fracción) (Doméstica)
Agua Residual Doméstica Sin Tratamiento 0
Agua Residual Doméstica con Tratamiento0
Agua Residual m3/s
Agua Tratada m3/s
Recolectada ( Fracción) (Municipal)
Con Tratamiento9 (Fracción)
Sin tratar10
(Fracción)
Fracción Por Tecnología Con Tratamiento Anaeróbio
Fracción Por Tecnología Con Tratamiento Aeróbio
Fracción Con Tratamiento Anaeróbio
Fracción Con Tratamiento Aeróbio
Fracción CTA en Reactor12
Fracción CTA en Laguna12
Fracción de Agua Con Tratamiento Aeróbio Dispuesta en
Digestión
Fracción de Agua Con Tratamiento Aeróbio Dispuesta como
Riego
Total
1990
1992
19942,7
19963
19984
2000
20021,6
20046
2006
2008
2010
81249645
85076840
89084312
92389599
94902336
97483412
99735530
102080606
105017450
108615341
112336538
16035233
1729101614
18645144
19773877
20625229
21513235
22,477,80717
23,485,62717
24,538,63317
8362838
1402525
0.478
0.391
0.087
123
19.3
0.522
0.082
0.440
0.297
0.703
0.024
0.058
0.002
0.022
0
9225977
1569413
0.455
0.365
0.090
1408
29.1
0.545
0.113
0.432
0.297
0.703
0.034
0.079
0.003
0.031
0
10178202
1756160
0.432
0.337
0.095
160
32.065
0.568
0.114
0.454
0.288
0.712
0.033
0.081
0.002
0.031
0
11228707
1965128
0.397
0.278
0.119
180
33.745
0.603
0.113
0.490
0.297
0.703
0.034
0.079
0.003
0.031
0.01713
12387636
2198962
0.389
0.269
0.120
187
40.854
0.611
0.133
0.478
0.333
0.667
0.044
0.089
0.006
0.038
0.008
13666180
2460620
0.365
0.251
0.114
2006
45.927
0.635
0.145
0.490
0.247
0.753
0.036
0.109
0.004
0.032
0.009
14,783,208
2,901,749
0.342
0.230
0.129
213
56.148
0.658
0.180
0.473
0.243
0.757
0.044
0.136
0.006
0.038
0.00713
15,991,538
3,421,960
0.319
0.246
0.145
227
64.5
0.650
0.288
0.362
0.246
0.754
17,298,634
4,354,434
0.288
0.11
0.177
242
74.4
0.712
0.219
0.493
259
253
0.058
0.079
0.081
0.062
0.072
0.092
0.119
0
Datos obtenidos a partir de los Censos de Población 1990 y 2000, y Conteo 1995.
Estadísticas del Agua en México, SEMARNAT-CNA, SUIBA, Edición 2004. Pág. 49, 76
2
Situación del Subsector Agua Potable, Alcantarillado y Saneamiento a Diciembre de 1994, Comisión Nacional del Agua, págs. 17, 18.
3
Situación del Subsector Agua Potable, Alcantarillado y Saneamiento a Diciembre de 1996, Comisión Nacional del Agua, págs. 44.
4
Situación del Subsector Agua Potable, Alcantarillado y Saneamiento a Diciembre de 1998, Comisión Nacional del Agua, págs. 45, 47.
5
Situación del Subsector Agua Potable, Alcantarillado y Saneamiento a Diciembre de 2000, Comisión Nacional del Agua, págs. 45.
6
Estadísticas del Agua en México, SEMARNAT-CNA, SUIBA, Edición 2005. Pág. 49, 72, 73
Situación del Subsector Agua Potable, Alcantarillado y Saneamiento a Diciembre de 2002, Comisión Nacional del Agua, págs. 46.
7
Informe de la Situación General en Materia de Equilibrio Ecológico y Protección al Ambiente 1993-1994. Secretaria de Desarrollo Social – Instituto Nacional de Ecología, págs. 113,121
8
Calculado por interpolación por un factor de 1.14531809 a una tasa de crecimiento anual del 14.531%.
9
Se calculó dividiendo los valores de agua residual tratada entre el agua residual total, multiplicando el cociente por la Fracción de Agua Recolectada.
10
Se obtiene mediante la diferencia entre la fracción de agua recolectada con tratamiento y la recolectada.
11
Se obtiene multiplicando la fracción recolectada con tratamiento por la Fracción por Tecnología de Tratamiento de Agua Residual Municipal Recolectada.
12
Se obtiene multiplicando la fracción de aguas residuales con tratamiento anaeróbio por la fracción de aguas con tratamiento anaeróbio en reactor.
1
X-186
13
Se estimaron multiplicando la fracción de agua residual tratada con tratamiento de lodos por digestión anaeróbia por la fracción de agua tratada por medio aerobios y por un factor por defecto de 0.5 que se refiere a la
cantidad de materia orgánica como DBO en agua y lodos.
14
Se estimaron con una tasa de crecimiento anual de 3.8418 para los años de 1992 y 1994, y de 2.1300 para los años de 1996, 1998, 2002 y 2003, tomando como referencia los datos de los Censos de 1990 y 2000, así
como del Conteo 1995.
15
Se calcularon con una tasa anual de crecimiento del 5.0338 para todos los años excepto 1990 y 2000 cuando se generaron datos de los Censos.
16
Se calcularon con una tasa anual de crecimiento de 5.7824 para todos los años excepto para 1990 y 2000.
17
Se calcularon con una tasa anual de crecimiento de 5.7824 para todos los años excepto para 1990 y 2000.
X-187
CUADRO 9.
Balance de Aguas Residuales Municipales
NOTA: Los valores de los parámetros identificados en los diferentes niveles del
diagrama, están asociados con los valores de los cuadros 8 y 10. En el primer
nivel se parte de la cantidad de agua residual generada (fila G del cuadro 8) en
m3/s. En el 2° nivel corresponde a las fracciones de agua colectada por el
drenaje municipal (izquierda) y no colectada (derecha). En el tercer nivel se
sitúan las fracciones de agua colectada no tratada (dispuesta en mar, ríos, etc),
agua colectada tratada en sistemas de tratamiento (inventario de la Comisión
Nacional del Agua CNA); en el mismo nivel del lado derecho se sitúa el agua
no colectada y tratada en fosas sépticas o letrinas (información de censos y
conteos), y agua no colectada y no tratada (dispuesta en mar, ríos etc.). En el 4°
nivel solo se divide la fracción de acuerdo al tipo de tratamiento, ya sea aerobio
o anaerobio, esta información también es brindada por la CNA. De acuerdo con
el Cuadro 10, se aprecian los valores para los balances de años pares, para los
valores impar se consideraron iguales que para los pares inmediatos anteriores.
En este cuadro se puede ver por nivel el valor correspondiente para cada año, y
finalmente en el 5° nivel se presentan los valores que son empleados en la
columna B (Degree of utilization) de las hojas de trabajo 4D1 (3/3)
correspondientes a cada año.
X-188
CUADRO 10.
Diagrama
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Recolectada
No recolect
Balance de aguas residuales municipales 1990
2° Nivel
3er Nivel
4° y 5° Niveles
Aerobio
0.058
Con trata
0.082 Anaerobio
0.024
0.522 Sin trata
0.44 Mar, río…
0.44
Suma
0.522
Aerobio
Anaerobio
Mar, río…
0.478 Con trata
0.087 Fosa Sépti
0.087 Fosa Sépti
sin trata
0.391 Mar, río…
0.391
Suma
0.478
1
Balance de aguas residuales municipales 1992
Aerobio
0.113 Anaerobio
0.432 Mar, río…
0.545
Con trata
0.545 Sin trata
Suma
0.455 Con trata
sin trata
Suma
0.09 Fosa Sépti
0.365 Mar, río…
0.455
Balance de aguas residuales municipales 1994
Aerobio
Con trata
0.114 Anaerobio
0.568 Sin trata
0.454 Mar, río…
Suma
0.568
0.432 Con trata
sin trata
Suma
0.095 Fosa Sépti
0.337 Mar, río…
0.432
Balance de aguas residuales municipales 1996
Aerobio
Con trata
0.113 Anaerobio
0.603 Sin trata
0.49 Mar, río…
Suma
0.603
0.397 Con trata
sin trata
Suma
0.119 Fosa Sépti
0.278 Mar, río…
0.397
Balance de aguas residuales municipales 1998
Aerobio
0.133 Anaerobio
0.478 Mar, río…
0.611
Con trata
0.611 Sin trata
Suma
0.389 Con trata
sin trata
Suma
0.12 Fosa Sépti
0.269 Mar, río…
0.389
Balance de aguas residuales municipales 2000
Aerobio
Con trata
0.145 Anaerobio
0.635 Sin trata
0.49 Mar, río…
Suma
0.635
0.365 Con trata
sin trata
Suma
0.114 Fosa Sépti
0.251 Mar, río…
0.365
Balance de aguas residuales municipales 2002
Aerobio
0.185 Anaerobio
0.473 Mar, río…
0.658
Con trata
0.658 Sin trata
Suma
0.342 Con trata
sin trata
Suma
0.129 Fosa Sépti
0.213 Mar, río…
0.342
Balance de aguas residuales municipales 2004
Aerobio
Con trata
0.288 Anaerobio
0.65 Sin trata
0.362 Mar, río…
Suma
0.65
0.35 Con trata
sin trata
Suma
1
0.12 Fosa Sépti
0.23 Mar, río…
0.35
Balance de aguas residuales municipales 2006
Aerobio
Con trata
0.307 Anaerobio
0.698 Sin trata
0.391 Mar, río…
Suma
0.698
0.302 Con trata
1 sin trata
Suma
0.157 Fosa Sépti
0.145 Mar, río…
0.302
Balance de aguas residuales municipales 2008
Aerobio
0.323 Anaerobio
0.386 Mar, río…
0.709
Con trata
0.709 Sin trata
Suma
0.291 Con trata
1 sin trata
Suma
0.161 Fosa Sépti
0.13 Mar, río…
0.291
Balance de aguas residuales municipales 2010
Aerobio
Con trata
0.37 Anaerobio
0.721 Sin trata
0.351 Mar, río…
Suma
0.721
0.279 Con trata
1 sin trata
Suma
0.164 Fosa Sépti
0.115 Mar, río…
0.279
X-189
Columna B
Worksheet 4D1
0.058 Planta Aero
0.024 Sistema Sép
0.831 Mar, río…
0.087 Pozo Sético
1
0.079
0.034
0.432
Aerobio
Anaerobio
Mar, río…
0.09 Fosa Sépti
0.365
1
0.079 Planta Aero
0.034 Laguna Anae
0.797 Mar, río…
0.09 Pozo Sético
1
0.081
0.033
0.454
Aerobio
Anaerobio
Mar, río…
0.095 Fosa Sépti
0.337
1
0.081 Planta Aero
0.033 Laguna Anae
0.791 Mar, río…
0.095 Pozo Sético
1
0.079
0.034
0.49
Aerobio
Anaerobio
Mar, río…
0.119 Fosa Sépti
0.278
1
0.079 Planta Aero
0.034 Laguna Anae
0.768 Mar, río…
0.119 Pozo Sético
1
0.089
0.044
0.478
Aerobio
Anaerobio
Mar, río…
0.12 Fosa Sépti
0.269
1
0.089 Planta Aero
0.044 Laguna Anae
0.747 Mar, río…
0.12 Pozo Sético
1
0.109
0.036
0.49
Aerobio
Anaerobio
Mar, río…
0.114 Fosa Sépti
0.251
1
0.109 Planta Aero
0.036 Laguna Anae
0.741 Mar, río…
0.114 Pozo Sético
1
0.136
0.049
0.473
Aerobio
Anaerobio
Mar, río…
0.129 Fosa Sépti
0.213
1
0.136 Planta Aero
0.049 Laguna Anae
0.686 Mar, río…
0.129 Pozo Sético
1
0.215
0.073
0.362
Aerobio
Anaerobio
Mar, río…
0.12 Fosa Sépti
0.23
1
0.215 Planta Aero
0.073 Laguna Anae
0.592 Mar, río…
0.12 Pozo Sético
1
0.233
0.074
0.391
Aerobio
Anaerobio
Mar, río…
0.157 Fosa Sépti
0.145
1
0.233 Planta Aero
0.074 Laguna Anae
0.536 Mar, río…
0.157 Pozo Sético
1
0.248
0.075
0.386
Aerobio
Anaerobio
Mar, río…
0.161 Fosa Sépti
0.13
1
0.248 Planta Aero
0.075 Laguna Anae
0.516 Mar, río…
0.161 Pozo Sético
1
0.299
0.071
0.351
Aerobio
Anaerobio
Mar, río…
0.164 Fosa Sépti
0.115
1
0.299 Planta Aero
0.071 Laguna Anae
0.466 Mar, río…
0.164 Pozo Sético
1
CUADRO 11.
Fuente: Comisión Nacional del Agua, 1998.
X-190
CUADRO 12.
Fuente Comisión Nacional del Agua, 2001.
CUADRO 13.
X-191
Fuente: Comisión Nacional del Agua, 2002.
CUADRO 14.
Fuente: Comisión Nacional del Agua, 2003.
CUADRO 15.
Fuente: Comisión Nacional del Agua, 2003.
X-192
CUADRO 16.
Fuente: Comisión Nacional del Agua 2003.
CUADRO 17.
X-193
CUADRO 18.
Inventario de Tecnologías de Tratamiento de Aguas Residuales Municipales
Tecnología
Número de Plantas/Capacidad Instalada
1. AC Aereación a contra corriente
2. AV Avanzado
3. DC Discos Biológicos
4. FL Filtros-Lagunas
5. LB Lagunas Aireadas
6. LM LEMNA
7. PE Purificador Enzimático (Reactor enzimático)
8. TE
9. TP Tratamiento Primario
10. TV Tratamiento Primario Avanzado
11. ZZ Desconocido/otros
12. AE Aereación Extendida
13. CF Coagulación Fluoculación
14. FB Filtros Biológicos
15. LA Lodos Activados
16. LP Lagunas Pantano
17. Tratamiento Secundario
18. BI Biológico
19. DU Dual
20 PL Tratamiento primario- Laguna de Pulimento
21. LE Lagunas de Estabilización
22. ZO Zanjas de Oxidación
23. TI Tanque Inhoff.
24. AN Anaeróbio
25. TS Tanque Séptico
26. DA Digestor Anaeróbio
27. RA Rafa
28. Wetland
29. Otros
Total
Fuente:
No
1
2
6
1
14
1
7
1994
Q lps
1995
No
4
6
1
13
3
22
22
2
14
43
2
20
169
1
10
40
2
22
166
No
1998
Q lps
2000
No
2001
Q lps
No
2002
Q lps
2003***
No
Q lps
No
2004**
Q lps
2006
No
Q lps
No
2008
Q lps
No
2010
Q lps
10
763
10
10
811
9
824
8
548
7
734.0
7
480
6
414.0
9
331.5
7
4000
13
15
5504
13
5237
12
3978
15
5,932.0
19
5,070
24
5,968.2
33
8,424.2
15
40
130
37
132
35
69
41
101.6
50
90
62
111.6
70
130.5
1841
2480
122
14
43
7
14
36
8
4
8
13
14
32
3533
8945
336
12
17
30
3512.6
11240
229.8
13
16
41
2465
8941
254
13
18
3,144.8
11,235.0
15
17
39
2,090
9,850
280
21
15
2,083.8
8,509.0
21
14
1,598.6
5,707.7
26
181
3718
25424
34
218
15
38
226
4293
33143
39
253
4315.5
35475.2
32
259
1767
24393
46
280
4,318.0
38,119.9
43
372
3,490
30,930
42
454
3,661.0
38,631.2
42
629
4,974.5
48,629.9
26
4
354
3290
15
5
3
3600
2
3,250
3
2864
3
3,300
9
4,050
10
4,373.1
12
4,376.5
497
21
53
7
2
10
31
4
17232
1088
932
53
3
337
1385
48
492
27
60
18
26
530
31
57
14897
2684
863
558
30
79
15003
2604
1053.7
510
30
51
11758
2079
459
549
28
58
16,049.5
2,611.6
659.0
622
23
63
13,810
2,170
420
677
22
71
14,631.8
2,313.4
422.4
723
25
58
13,842.2
2,339.7
429.2
53
280
65
408.8
65
249
67
305.3
82
160
84
137.5
86
108.6
7
53
21
1426
178
60
38
1482.8
273.8
59
48
215
206
1,060
420
63,151
1,018
1132
80,622
1242
85,042.6
1,182
60,243
1,475.6
330.4
401.4
88,718.3
122
110
914
65
64
48
1,300
1,539
74,370
152
134
59
1,833
1,209.5
439.0
734.3
83,639.6
137
66
261
2,186
1,145.5
420.5
875.0
93,600.2
1
1
346
20
41
1
335
16
34
1
4
718
4
42788
680
*Situación del Subsector Agua Potable, Alcantarillado y Saneamiento, Edición 2009; CONAGUA/SEMARNAT Págs. 48- 49.
** Situación del Subsector Agua Potable, Alcantarillado y Saneamiento, a Diciembre de 2004; CONAGUA/SEMARNAT Pág. 37.
***Inventario Nacional de Plantas Municipales de Potabilización y de Tratamiento de Aguas Residuales en Operación; Diciembre 2003; CONAGUA/SEMARNAT Pág. 54.
X-194
CUADRO 19.
Fracciones por Tecnologías de Tratamiento de Agua Residual Municipal Recolectada
Años
1990
1992
1994
1995
1996
1998
2000
2001
2002
2003
2004
2006
2007
2008
2009
2010
No Fracción Anaerobios
0.610083
0.610083
0.57381
0.57265
0.610083
0.68380
0.61886
0.65812
0.66827
0.64551
0.67615
0.66407
0.659095
0.65411
0.637216
0.62031
Q lps Fracción Anaerobios
0.297781
0.297781
0.288081
0.279511
0.297791
0.33377
0.247802
0.25214
0.24289
0.24842
0.24609
0.24257
0.240175
0.23778
0.221246
0.20470
Q lps Fracción Aerobios4
0.70222
0.70222
0.71192
0.42049
0.70221
0.66623
0.75220
0.74786
0.75711
0.75158
0.75396
0.75743
0.759825
0.76222
0.777336
0.79244
1
NOTA:
Se calcularon estos valores con el valor de 2.04871 determinado con los valores de 1998.
Es el valor promedio de los años 2001, 2002 y 2003.
3
Son el valor promedio de los valores correspondientes a 1994, 1995 y 1998.
4
Estos valores se calcularon restando a la unidad los valores de la Q lps Fracción Anaeróbia.
5
Estos valores son el promedio de los valores correspondientes a los años 2006 y 2008 para 2007.
6
Estos valores son el promedio de los valores correspondientes a los años 2008 y 2010 para 2009.
2
|
CUADRO 20.
Tratamientos Aneróbios
21. LE Lagunas de E
22. ZO Zanjas de Ox
23. TI Tanque Inhoff
24. AN Anaeróbio
25. TS Tanque Sépti
26. DA Digestor An
27. RA Rafa
28. Wetland
Otros
Total
1994
1995
No
No
No
Q lps
No
No
Q lps
No
Q lps
No
Q lps
No
Q lps
No
Q lps
No
Q lps
No
Q lps
346
20
41
335
16
34
497
21
53
7
2
10
31
4
17232
1088
932
53
3
337
1385
48
492
27
60
18
26
530
31
57
14897
2684
863
558
30
79
15003
2604
1053.7
510
30
51
11758
2079
459
549
28
58
16049.5
2611.6
659.0
622
23
63
13810
2170
420
677
22
71
14631.8
2313.4
422.4
723
25
58
13842.2
2339.7
429.2
53
280
65
408.8
65
249
67
305.3
82
160
84
137.5
86
108.6
7
53
21
1426
178
60
38
1482.8
273.8
59
48
215
206
1060
420
21078
630
745
20328
830
20826
763
14966
1475.6
330.4
401.4
21832.8
122
110
625
65
64
48
879
1022
18040
152
134
59
1199
1209.5
439.0
734.3
19887.9
137
66
261
1350
1145.5
420.5
875.0
19160.7
1
4
4
412
389
1998
2000
2001
2002
2003
2004
2006
2008
CUADRO 21.
Fracciones por Tecnologías de Tratamiento Anaeróbias en Lagunas Reactores
Años
1990
1992
1994
1995
1996
1998
2000
2001
2002
2003
|
No Fracción Anaerobios Lagunas
0.8753
0.8753
0.888
0.902
0.8753
0.835
0.824
0.781
0.754
0.770
Q lps Fracción Anaerobios Lagunas
0.9131
0.9131
0.9271
0.9411
0.9131
0.871
0.8892
0.873
0.858
0.938
Q lps Fracción Anaeróbios Reactores4
0.087
0.087
0.073
0.059
0.087
0.129
0.111
0.127
0.142
0.062
NOTA: 1Se calcularon estos valores con el valor de 2.04871 determinado con los valores de 1998.
2
Es el valor promedio de los años 2001, 2002 y 2003.
3
Son el valor promedio de los valores correspondientes a 1994, 1995 y 1998.
4
Estos valores se calcularon restando a la unidad los valores de la Q lps Fracción Anaeróbia.
X-195
2010
INFORMACIÓN SOBRE AGUAS RESIDUALES INDUSTRIALES
CUADRO 22.
MAYORES CARGAS DE AGUAS RESIDUALES EN MÉXICO
Extracción
Descarga
Consumo%
%
%
Industria
1.Azucarera
35.2
22.3
38.8
2.Química
21.7
24.4
21.0
8.2
16.1
6.0
4.Petróleo
7.2
3.7
8.2
5.Bebidas
3.3
6.4
2.4
6.Textil
2.6
2.4
2.7
7.Siderúrgica
2.5
5.5
1.7
8.Eléctrica
1.5
4.7
0.7
9.Alimentos
0.2
0.3
0.2
10.Resto del
sector
0.17
14.1
18.1
3.Papel
celulosa
y
Fuente: Control de la Contaminación en México. Sedue. 1990.
David Gidi Alfredo Fuad, SEDUE, Memoria VII
Congreso Nacional SMISAAC, Sep 1990.
X-196
CUADRO 23.
CUADRO 24.
X-197
CUADRO 25.
CUADRO 26.
X-198
CUADRO 27.
CUADRO 28.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2000
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
152
32
10
31
22
13
8
11
5
1242.39
4924.62
12.92
158.09
31.68
1647.84
345.13
41.44
589.72
39,180,011.04
155,302,816.32
407,445.12
4,985,526.24
999,060.48
51,966,282.24
10,884,019.68
1,306,851.84
18,597,409.92
284
8,993.83
283,629,422.88
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
X-199
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
60,776.03
117,191.51
4,865.14
7,733.55
2,878.49
23,681.03
18,749.90
2,027.19
38,468.74
OBSERVACIONES
CUADRO 29.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2001
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
159
31
11
29
20
23
7
11
4
1,477.71
4,923.06
33.91
120.46
27.91
1,586.05
305.30
42.01
60.53
46,601,062.56
155,253,620.16
1,069,385.76
3,798,826.56
880,169.76
50,017,672.80
9,627,940.80
1,324,827.36
1,908,874.08
295
8,576.94
270,482,379.84
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
72,287.57
117,154.38
12,769.11
5,892.74
2,535.95
22,793.05
16,586.05
2,055.07
3,948.51
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 30.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2002
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
138
22
14
27
20
24
7
11
7
1,251.30
7,429.35
41.99
117.29
32.00
1,530.23
332.62
42.01
1,569.13
39,460,996.80
234,291,981.60
1,324,196.64
3,698,857.44
1,009,152.00
48,257,333.28
10,489,504.32
1,324,827.36
49,484,083.68
270
12,345.92
389,340,933.12
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
61,211.90
176,796.73
15,811.70
5,737.67
2,907.57
21,990.87
18,070.27
2,055.07
102,357.83
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 31.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2003
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
169
22
17
29
20
27
8
11
6
1,429.46
7,429.35
44.96
121.49
32.01
2,122.58
357.71
41.12
1,569.11
45,079,450.56
234,291,981.60
1,417,858.56
3,831,308.64
1,009,467.36
66,937,682.88
11,280,742.56
1,296,760.32
49,483,452.96
309
13,147.79
414,628,705.44
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
X-200
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
69,927.24
176,796.73
16,930.08
5,943.13
2,908.48
30,503.50
19,433.34
2,011.53
102,356.52
OBSERVACIONES
CUADRO 32.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2004
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
201
24
24
42
20
36
9
14
7
1,401.46
6,755.48
45.51
176.22
32.00
1,989.53
584.60
59.61
834.61
44,196,442.56
213,040,817.28
1,435,203.36
5,557,273.92
1,009,152.00
62,741,818.08
18,435,945.60
1,879,860.96
26,320,260.96
377
11,879.02
374,616,774.72
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
68,557.52
160,760.60
17,137.19
8,620.44
2,907.57
28,591.45
31,759.60
2,916.04
54,443.46
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 33.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2005
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
199
27
25
29
20
37
9
15
7
1,555.09
6,448.83
46.40
144.85
32.00
1,805.61
584.60
47.64
860.81
49,041,318.24
203,370,302.88
1,463,270.40
4,567,989.60
1,009,152.00
56,941,716.96
18,435,945.60
1,502,375.04
27,146,504.16
368
11,525.83
363,478,574.88
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
76,072.89
153,463.23
17,472.33
7,085.87
2,907.57
25,948.34
31,759.60
2,330.48
56,152.54
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 34.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2006
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
226
36
19
41
22
45
12
17
6
929.21
8,410.82
24.63
146.92
32.07
2,039.06
625.54
210.49
889.10
29,303,566.56
265,243,619.52
776,731.68
4,633,269.12
1,011,359.52
64,303,796.16
19,727,029.44
6,638,012.64
28,038,657.60
424
13,307.84
419,676,042.24
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
X-201
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
45,455.69
200,152.84
9,274.64
7,187.13
2,913.93
29,303.24
33,983.75
10,296.89
57,997.96
OBSERVACIONES
CUADRO 35.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2007
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
237
43
22
70
22
55
16
31
6
777.54
9,065.02
17.82
304.44
32.07
2,116.56
709.75
241.36
880.10
24,520,501.44
285,874,470.72
561,971.52
9,600,819.84
1,011,359.52
66,747,836.16
22,382,676.00
7,611,528.96
27,754,833.60
502
14,144.66
446,065,997.76
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
38,036.20
215,720.88
6,710.28
14,892.79
2,913.93
30,416.99
38,558.64
11,807.00
57,410.87
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 36.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2008
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
261
45
25
73
25
54
16
32
6
991.97
9,219.72
24.68
338.10
33.07
2,329.86
615.01
238.73
880.10
31,282,765.92
290,753,089.92
778,308.48
10,662,321.60
1,042,895.52
73,474,464.96
19,394,955.36
7,528,589.28
27,754,833.60
537
14,671.24
462,672,224.64
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
OBSERVACIONES
48,525.83
219,402.28
9,293.47
16,539.39
3,004.79
33,482.31
33,411.69
11,678.35
57,410.87
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
CUADRO 37.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2009
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
265
51
26
78
25
55
16
32
19
3,008.36
10,310.01
85.44
614.28
67.58
2,552.34
614.65
222.18
1,862.46
94,871,640.96
325,136,475.36
2,694,435.84
19,371,934.08
2,131,202.88
80,490,594.24
19,383,602.40
7,006,668.48
58,734,538.56
567
19,337.30
609,821,092.80
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
X-202
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
147,164.89
245,347.98
32,173.18
30,049.74
6,140.42
36,679.56
33,392.13
10,868.74
121,492.39
OBSERVACIONES
CUADRO 39.
INVENTARIO DE PLANTAS DE TRATAMIENTO DE AGUAS RESIDUALES INDUSTRIALES, 2010
GIRO INDUSTRIAL
ALIMENTICIA
INGENIOS AZUCAREROS
BEBIDAS ALCOHOLICAS
BEBIDAS NO ALCOHOLICAS
BENEFICIO DEL CAFÉ
CELULOSA Y PAPEL
CERVECERA
LACTEOS
PETROLERA
TOTAL
No. PLANTAS EN
OPERACIÓN
CAUDAL TRATADO
(l/s)
CAUDAL TRATADO
(m3/año)
299
54
25
88
27
57
17
242
28
1,434.01
10,480.09
84.69
745.17
67.78
2,436.73
479.65
2,160.74
2,682.50
45,222,939.36
330,500,118.24
2,670,783.84
23,499,681.12
2,137,510.08
76,844,717.28
15,126,242.40
68,141,096.64
84,595,320.00
837
20,571.36
648,738,408.96
Concentración
DBO5 esperada con
de DBO5 en
tratamiento
agua cruda
(Ton/año)
(mg/l)
Notas:
Se estimó una remoción promedio de 70% en DBO5
En el giro industrial "alimenticia", se incluye: carnes, embutidos, pescados , mariscos y otros subgiros
En el giro petrolero, se incluyen: petroquímicas
En el giro bebidas alchólicas se incluyen: vinos, licores y destilerías
En el giro bebidas no alcohólicas, se incluyen: embotelladoras y bebidas carbonatadas
X-203
2,216.00
1,078.00
17,058.00
2,216.00
4,116.00
651.00
2,461.00
2,216.00
2,955.00
70,149.82
249,395.39
31,890.76
36,452.71
6,158.59
35,018.14
26,057.98
105,700.47
174,985.42
OBSERVACIONES
INFORMACIÓN SOBRE INCINERADORES DE RESIDUOS
PELIGROSOS HOSPITALARIOS
CUADRO 40.
X-204
CUADRO 41.
X-205
X-206
CUADRO 42.
Capacidades Gg/año de incineración de residuos peligrosos hospitalarios
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
385
385
200
385
200
385
385
85
200
200
1,750
270
360
85
220
200
1,750
270
360
250
1,000
270
45
588
350
300
200
200
700
1,000
340
109
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
200
1,750
270
360
270
45
270
45
270
45
270
45
270
45
270
45
270
45
270
45
270
45
270
45
270
45
270
45
350
350
350
350
350
350
350
350
350
350
350
350
200
200
700
1,000
340
109
90
420
113
113
83
200
200
700
1,000
340
109
200
200
700
1,000
340
109
200
200
700
1,000
340
109
200
200
700
1,000
340
109
200
200
700
1,000
340
109
200
200
700
1,000
340
200
200
700
1,000
340
200
200
700
1,000
340
200
200
700
1,000
340
200
200
700
1,000
340
200
200
700
1,000
340
113
250
113
250
113
250
113
250
113
250
113
250
113
250
113
250
113
250
113
250
350
180
188
375
350
180
188
375
15
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
350
180
188
375
15
90
730
9
795
730
9
795
4,800
82
82
730
730
730
730
730
730
730
4,800
82
298
13,146
12,775
39,775
83
13,146
12,775
39,186
82
13,416
12,775
34,167
71
13,146
12,775
33,897
71
13,146
12,775
33,897
71
13,146
12,775
33,897
71
13,146
12,775
33,897
71
500
420
113
250
83
350
183
14
365
885
2
3,450
7
8,822
18
6,998
15
7,395
15
7,811
16
13,146
12,775
34,720
72
13,146
12,775
33,897 kg/h
71 Gg/año
Fuente: SEMARNAT, Los datos de los cuadros 40 y 41 se resumen en este Cuadro 42 para estimar la
incineración de los residuos sólidos peligrosos hospitalarios regulados por la autoridad competente. Los valores
del último renglón son empleados en las hojas de trabajo 4C1 CH4, CO2 y N2O Incineration, respectivamente.
X-207
Información del Documento
Formato
MARC ,Campo, valor
008/11, País, mx
008/35-37, Idioma, spa
100, Autor,
110, Autor Institucional,
245, Título, Inventario Nacional de Gases de Efecto Invernadero 2010
740, Otro título,
260, Lugar,editor y fecha,
300, Descripción física, 208 p
355, Seguridad, 0
400,Serie o colección, Inventario Nacional de Gases de Efecto Invernadero
520, Resumen,
653, Palabras clave, INEGEI, inventario, desechos, gases de efecto invernadero
700, Coautores, $
710, Coautores institucionales, Instituto de Investigaciones Eléctricas
852, Ubicación, Dirección de Cambio Climático, INE, Piso 4°, Coordinación de Cambio
Climático, INE, Piso 4°.
856, Localización electrónica, pendiente hasta el final
270, Coordinación, Julia Martínez, e-mail jmartine@ine.gob.mx, Coordinación de Cambio
Climático, INE, Periférico Sur 5000, Nivel 4°. México DF, 01040, tel: 52-56243543, fax:
52-56-243593
X-208