Biomethane, the Spanish case
Transcription
Biomethane, the Spanish case
Biomethane, the Spanish case Current status and prospects WORKSHOP MAGRAMA‐SEDIGAS Madrid, 14th April‐ 2015 Index Regulation Standardization Environment Biomethane Raw Material Production Cost Quality 2 1. Biogas, origin and applications Heat Landfill Electricity Sewage sludge Vehicles fuel Agricultural industries Waste* Energy crops Biomass Biogas Biomethane Boiler Engines-cogeneration Gas vehicles Gas grid Biogas composition Biomethane composition 50-65% methane 50-35% CO2 95% minimum methane 2% CO2 maximum (in accordance with detailed protocol-01) * organic fractions of household and industry waste 3 2. Overview Biomethane’s production and its injection into gas grids for fueling vehicles is already a reality. – Knowledge, experience, abundant raw materials, technologies and infrastructures are available. – In late 2013, in Europe, there were 282 biomethane’s plants, 180 of them were already injecting into gas grids. Source: EBA (European Biogas Association). The Spanish biogas potential is estimated to be 1.695 ktoe/year by 2020 (1,68 bcm/year)*. *(Source: Situación y potencial de generación de Biogás. IDAE) 4 3. Biomethane’s regulation To widespread the use of biomethane it would be required, - an adequate regulation, - coordinated actions among the Regulators (Ministry of Finance, Ministry of Industry and Ministry of Environment), - coordinated initiatives for Directives transposition within the European framework. • Biomethane in Spain doesn’t have an specific regulatory framework – a reliable and not subsidized framework is needed – tax incentives and benefits from the emissions trading are recommended. • The responsibilities among the gas injection stakeholders should be regulated. 5 4. Biomethane standardization The European framework should be completed for both biomethane’s injection and its use as a vehicle fuel. The EC identifies the lack of an European standardization as a handicap for the biomethane implementation. CEN Standards are expected to be ready in 2015: – Specifications for biomethane injection into natural gas network – Automotive fuel specifications. 6 5. Raw materials Raw materials have an important role in the biomethane costs. A more binding waste management and recovery regulation, would stimulate the biogas’ and biomethane’s production. One of the main sector problems is the solid urban waste diversity in Spanish landfills. Some waste have alternative uses. In these cases, they have to be bought, especially in the agricultural sector. Sewage 公共下水道 水処理施設 Food waste 生ゴミ 受入 施設 下水 汚泥 Rural 農業集落排水汚泥 Sewage Septic tank し 尿 soil night 浄化槽汚泥 Source : Dr. Tatsuya NOIKE, Nihon Univ. 珠洲市浄化センター メタンガス Biogas 加温 ガスホルダー Gas holder 乾燥 メタン Digester 発酵槽 汚泥乾燥施設 汚泥脱水機 Compost 7 6. Biomethane’s quality Some quality requirements for biomethane injection into high pressure gas grid are more restrictive than the ones for natural gas. – The common practice is to establish different qualities according to the injection point (high or medium pressure network) or if it is used as vehicles fuel. – Biomethane for NGV applications could have lower quality requirements than the biomethane for injection into gas grids. Example: – the maximum oxygen content permitted is 0,3% while in the European Standard in process, is going to be setted within the following range: from 0,001% to 1 %, depending on the injection point. – the maximum CO2 content permitted is 2% for injection into high pressure networks and 2,5% for injection into distribution networks. The corresponding European requirement is 4% or 5% on medium pressure networks. – The methane content has to be the minimum to guarantee a correct combustion even though its heating value was lower than the natural gas that in the network. 8 7. Biomethane’s production Depending on the raw material or the biomethane requirements, there are different ways to produce it. quality The production costs are decreasing quickly. The biomethane production cost could be soon competitive with natural gas prices. Waste water produced by 185 people could provide bioenergy for a vehicle. Source: Smart Green Project Example: – Depending on the substrates type, it is possible to get 10 to 400 m3 of biogas from every tonne of biogenic wastes digested. – Technologies start being competitive when the production rate is over 200 m3/h. – Valdemingomez capacity plant is 4.000 m3/h, but currently it is operating at 2.000-2.400 m3/h. – In order to avoid building new infrastructures that would increase the project cost, the final use has to be closed to the production. 9 8. Biomethane’s cost Biomethane’s cost depends on raw materials, production process and quality requirements. – In some cases, biomethane’s total cost is close to gas natural prices. – If some requirement standards were more flexible, the gap between biomethane and natural gas prices could be smaller. Example: – The average production cost for biogas anaerobic digestion from biogenic wastes is around 0,40 €/m3. – The net cost for compressing and upgrading the biogas into biomethane is 0,27 €/m3. The final price is around 0,7 €/m3 (70 €/MWh)* *Referred to the natural gas Net Calorific Value 10 9. Environment Environmental benefits from biomethane’s production and its use are clear. – It is the most biofuels efficient fuel – Its injection into natural gas grids permits: • to achieve the renewable energy objectives, to reduce fossil fuels consumption and to reduce greenhouse gas (GHG) emissions; • to improve security of supply and to reduce EU’s energetic dependence; • to maintain forests, reducing fire risks; • to create a green certificate for gas. The use of the biogas/biomethane helps to achieve the decarbonisation target in the automotive/energy sectors (target 20/20/20), helps to fulfill the 20% of renewables and the 20% emissions limit. 11 10. Some Spanish initiatives – Parque Tecnológico de Valdemingómez • Biomethane injection into the transmission gas grid produced from anaerobic digestion of household waste. – LIFE BIOGRID European project coordinated by EDP Naturgas Energy and Biogas Fuel Cell (finalized in December 2013). • First vehicle in Spain who used biomethane and first biomethane injection in the natural gas distribution network by "Blending" in a gas pressure regulating station; – Joint venture of Gas Natural Fenosa (GNF), HERA HOLDING and SODENA • Project to show the purification and enrichment of biogas from landfill in Góngora (Navarra). Target: To study whether biogas, once processed and converted into biomethane, has the quality conditions for be injected into the natural gas network .; – RENOVAGAS: • Project of a synthetic natural gas plant from the hydrogen produced by renewables and mixing with biogas in order to produce biomethane for inject into the gas grid ; Enagas, FCC-Aqualia, Abengoa Hidrógeno, Gas Natural Fenosa, Tecnalia…. – FCC Aqualia • Two projects to optimize the biomethane production in Sewage Plants. 12 11. Conclusions – Biomethane sector could be relevant in both, Europe and Spain. – Technologies are available, but in order to be competitive, it is necessary to reduce biomethane’s production cost. – It is necessary a regulatory framework for biomethane’s value chain, from the production to the final use. – European biomethane’s quality requirements should be established by approving the CEN standards. – The quality requirements for biomethane NGV use should be lower than the corresponding for injection. – NGV biomethane’s final price would be lower than injection cases. – In order to reduce the injection cost, injection should be done at the lowest gas grid pressure. 13 THANK YOU Plaza Lesseps 33, Entlo. 3-A 08023 Barcelona Tel.: 93 417 28 04 Fax: 93 418 62 19 sedbcn@sedigas.es Antracita, 7, 4a 28045 Madrid Tel.: 93 467 03 59 Fax: 93 418 62 19 sedmad@sedigas.es www.sedigas.es Síguenos en: @sedigas www.linkedin.com/company/Sedigas