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INTRODUCTION TO SIMAPRO HOW TO MODEL? Stephan Pfister & Ronnie Juraske ETH Zurich, Institute for Environmental Engineering, Ecological Systems Design Group Based on material from: An De Schryver & Ronnie Juraske (2011) STRUCTURE OF SIMAPRO Databases, libraries, processes and product stages Software program: • Managing of data • Storing of data • Making calculations • Check the reliability LCI LCIA Intepretation Structure of SimaPro Database 77 numbered *.nx1 files Libraries BUWAL Ecoinvent … BUWAL Ecoinvent ETH- General data Units Project 1 Subst. 1 kg Planks 0,00702 Project 2 0,25 tkm Truck 28t B250 0 0,72 MJ Electricity Netherlands B250 1p Lif e cy cle model Sima (plastic) 0 0,48 MJ Heat diesel B250 Project A 0,22 MJ Electricity from coal B250 12,6 0,353 MJ Electricity from gas B250 Images … Project B 1p dispose aluminium part -1,24 3,6 MJ Electricity, low voltage, production UCTE, at 0,0257 0,5 tkm Transport, lorry 28t/CH S demo 0,0109 1,5 kg Recycling only B250 avoided demo 1,5 kg Recycling aluminium S demo 1,35E3 MJ Electricity , low v oltage, 3,65E3 p Use of a cof f ee f ilter 1p Lif e cy cle Pro, no takeback -1,28 -1,28 0,00441 0,00187 … 9,55 1p Assembly model Pro (aluminium) 1,4 9,62 Pro 903 MJ Electricity , low v oltage, 6,43 3,65E3 p Use of a cof f ee f ilter 1,31 1,31 0,00522 3,65E3 p Filter production 1,19 7,4 kg Paper, wood-containing, 1,13 1p Housing Pro (extruded alumin.) 9,49 kg Municipal waste NL 2002 S demo 0,974 0,927 3,65E3 p Filter production 1,19 7,4 kg Paper, wood-containing, 8,12 kg Incineration S demo 1,13 0,948 3 www.ifu.ethz.ch/ESD SimaPro libaries Two types of libraries: One Method library • 14 different impact assessment methods within SimaPro Number of Data libraries • 2 types: • Based on physical values: ex, the use of 1kg of paper • Based on financial values: ex, the use of 1$ of paper (input-output libraries) 4 www.ifu.ethz.ch/ESD Ecoinvent library • More than 4000 processes • Including capital goods, Good quality • For some processes: regional differences (Swiss and average Europe) • American, Asian electricity mixes, agricultural processes,… • • • • • Uncertainty in the data (MC) In SimaPro picture provided with most processes Consistent and well documented Updated regularly Includes Unit processes and System processes For more info: www.ecoinvent.ch 5 www.ifu.ethz.ch/ESD Ecoinvent processes System processes: aggregated data (one box per process) Unit processes: large network for every process Process A Process B Process A Why? Process C Process A Process B Process D Process C Process E Process D Process F Process G Process F Process E Process G 6 www.ifu.ethz.ch/ESD HOW TO MODEL IN SIMAPRO? Introduction to different functions Search for the database: Browse ! C/users/Public/Public documents/Simapro/Database How to model in SimaPro Open a project Create a new project: Introduction to SimaPro 8 www.ifu.ethz.ch/ESD Explore SimaPro Click on description Look at the Click on libraries processes Navigate through SimaPro 9 www.ifu.ethz.ch/ESD Explore SimaPro Organized Available data Library 10 www.ifu.ethz.ch/ESD START MODELLING IN SIMAPRO Some simple exercises Case study: water bottle • Learn how to model in SimaPro • Model the production of a plastic water bottle Non reusable plastic bottle www.ifu.ethz.ch/ESD Model a material (under processes) Choose a folder or make a new one New material 13 www.ifu.ethz.ch/ESD Model a material (under processes) Name of the material Input materials and processes Emissions to air, water and soil. 14 www.ifu.ethz.ch/ESD Waste type • Within SimaPro each material is send to waste scenario • Waste scenario describes where waste is going • Waste treatment describes the emissions per kg waste land filled or burned • This is based on the waste type You flag the material Waste scenario send waste to specific waste treatment www.ifu.ethz.ch/ESD 15 Summary: Model a material (under processes) • Have a look in SimaPro • Make a new folder • Open a new process • Several Tabs • Documentation: Description and specification of the data • Input/ Output: The data of your process 16 www.ifu.ethz.ch/ESD EXERCISE 1: MODEL WATER BOTTLE USING PROCESSES Model a material Use ecoinvent system processes • Material a: 20gr of Plastic bottle • 22gr of PET (RER, S) • Blow molding of the plastic (RER, S) • 2 gr waste during production: municipal incineration (treatment) • Material b: 3gr of plastic cap • 3.75 gr Acrylonitrile-butadiene-styrene copolymer, ABS • 0.75gr of waste during production: municipal incineration, plastic mixture Work on your own: 15min www.ifu.ethz.ch/ESD 18 Combine your materials Use system processes • Model the full plastic bottle • 20gr bottle • 3gr of cap • Pumping, purifying & filling process: 0.02 kWh/bottle (UCTE electricity mix, medium voltage) Work on your own: 10min 19 www.ifu.ethz.ch/ESD Have a look at the network Select method Analyze options: tree, network, comparison Calculate www.ifu.ethz.ch/ESD 20 Have a look at the network • See how the life cycle is taking form • Cradle to gate level/ not LC yet • Main features of the Network • Take a look at the inventory list 21 www.ifu.ethz.ch/ESD Have a look at the tree 22 www.ifu.ethz.ch/ESD Model the life cycle Use system processes • 1 water bottle of 23g • 2x 50km transport, lorry 20-28 ton • Disposal to incineration scenario CH 23 www.ifu.ethz.ch/ESD Modeling details • Modeling transport • “ton x km” or “kg x km” • 50% loaded, full to go & empty on return 24 www.ifu.ethz.ch/ESD Have a look at the network • See how the life cycle is taking form • Main features of the network • Different options 25 www.ifu.ethz.ch/ESD Have a look at the tree 26 www.ifu.ethz.ch/ESD IMPACT ASSESSMENT IN SIMAPRO Characterisation, normalization,… Result interpretation: • Analyse if the flows make sense • Look at the network with a 0,1 % cut-off • How much material goes in the system • How much material goes of the system to the waste scenario? • What are the processes that contribute with most of the impact • Check the thicknesses of the arrows 28 www.ifu.ethz.ch/ESD Analyze impact of plastic bottle Presentation Different impact assessment steps Analyze impact of plastic bottle Process contribution Inventory EXERCISE 2: MODEL WATER BOTTLE USING PRODUCT STAGES Model an assembly • Model the full plastic bottle • bottle • cap • Pumping, purifying & filling process 32 www.ifu.ethz.ch/ESD Model an assembly • Have a look in SimaPro • Product stages: New assembly • Several Tabs • Input/ Output and comment: The data of your assembly • Parameters: Input of variable data as functions 33 www.ifu.ethz.ch/ESD Model an assembly Use system processes • Model 1p of plastic bottle • 20gr bottle • 3gr of cap • pumping, purifying & filling process: 0.02 kWh/bottle (UCTE electricity mix S) 34 www.ifu.ethz.ch/ESD Have a look at the tree Analyze options: tree, network, Select method comparison, monte carlo,… 35 www.ifu.ethz.ch/ESD Have a look at the tree • See how the life cycle is taking form • Cradle to gate level/ not LC yet • Main features of the Network • Take a look at the inventory list 36 www.ifu.ethz.ch/ESD Have a look at the tree 37 www.ifu.ethz.ch/ESD Model a life cycle • Have a look in SimaPro • Product stages: New life cycle • Several Tabs • Input/ Output and comment: The data of your assembly • Parameters: Input of variable data as functions 38 www.ifu.ethz.ch/ESD Model a life cycle Use system processes • 1p water bottle • 2x 50km transport, lorry 20-28 ton • disposal to incineration scenario CH 39 www.ifu.ethz.ch/ESD Modeling details • Modeling transport • Ton x km or kg x km • 50% loaded, full to go & empty to return • Disposal to incineration • With or without energy recovery • Avoided product can be used: avoid electricity or heat production 40 www.ifu.ethz.ch/ESD Have a look at the network 41 www.ifu.ethz.ch/ESD EXERCISE 3: GLASS WATER BOTTLE Case study 2: Glass bottle • Model on your own in SimaPro • Model the production and use of glass bottled water • Use system processes www.ifu.ethz.ch/ESD Model the materials • Material a: 200gr glass bottle Use system processes • Material b: 5gr aluminum cap • 210 gr white (virgin) glass • glass blowing: 0.01kWh • 10gr waste scenario • 5gr aluminum • production process www.ifu.ethz.ch/ESD Model Assembly and LC: use product stages • Assembly: bottled water • Life cycle: Glass water bottle • glass bottle • aluminum cap • process bottling: 0.02kWh • bottled water • transport • waste www.ifu.ethz.ch/ESD Modeling results Glass bottle Assembly Aluminum Life cyclecap 4646 46 www.ifu.ethz.ch/ESD Have a look at the network 47 www.ifu.ethz.ch/ESD EXERCISE 5: COMPARE PLASTIC BOTTLE AND GLASS BOTTLE Compare both products 49 www.ifu.ethz.ch/ESD EXERCISE 6: MODEL WITH PARAMETERS (APPLY TO PLASTIC BOTTLE) Model with parameters Insert a variable instead of constant data When?? • Preliminary data is available, inputs could change if better data is available • Different input values can be used to calculate more versions of the same life cycle • Reduce the possibility of making calculation mistakes. Easy to check • Insert calculation rules instead of constant data as input data. • Available for all processes and product stages • With or without uncertainty distribution • Calculation rule: • Defined in SimaPro • Based on input parameter 51 www.ifu.ethz.ch/ESD Exercise 6.1: Model bottling with parameters • Electricity use for bottling • Uncertain value • Combination of values • Input parameters (apply to plastic bottle) • ‘pumping&cleaning’: 0.015kWh/l • ‘filling ’: 0.005kWh/l • Calculated parameter • bottling=‘pumping&cleaning + filling’ • Process input data • ‘bottling‘ 52 www.ifu.ethz.ch/ESD Exercise 6.2: Model transport with parameters • Use Input parameters for distance and weight • Use a calculated parameter for transport • Replace transport within case study 1 by a calculation rule 53 www.ifu.ethz.ch/ESD Exercise 6.3: Different distances-different transport Scenario Distance 1. Local • 50km Local: Distance <=50km Smaller or equal than van < 3,5t/RER S • Regional: 50km<distance Between 50 and 150km Lorry of 16t,and fleetdistance>150km average/RER • Abroad: Distance=>150km Bigger or equal than 150km Lorry of 20-28t, fleet average/RER 2. Regional 3. Abroad Switches: Transport mode • Process sheet: • Parameter tap: Make the necessary switch parameters which are 1 when the distance is conform the scenario • In the input for transport: add two lines for the transport with a van and transport with lorry 20-28t. Multiply inputs by the corresponding switches 54 www.ifu.ethz.ch/ESD Compare different versions of your model • First parameters are defined at process/project or database level • A Calculation setup can be used to define two or more scenarios • Each scenario considers different values for the parameter 55 www.ifu.ethz.ch/ESD Thank you for your attention. pfister@ifu.baug.ethz.ch www.ifu.ethz.ch/ESD