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Carbon Footprint of residual Municipal Solid Waste (rMSW) Management -

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Presentation on theme: "Carbon Footprint of residual Municipal Solid Waste (rMSW) Management -"— Presentation transcript:

1 Carbon Footprint of residual Municipal Solid Waste (rMSW) Management -
4th International Conference on Earth Science and Climate Change Carbon Footprint of residual Municipal Solid Waste (rMSW) Management - The Relevance of Background Systems Dipl.-Ing. Adele Clausen Alicante, June 16-18, 2015

2 Content Introduction GHG emissions from rMSW management
Selected treatment technologies Origin of GHG emissions Relevant background Background for examplary modelling Exemplary modelling Results Outlook

3 rMSW = what remains after separate collection
GHG emissions from rMSW management rMSW = what remains after separate collection - Food - Yard - Wood - Paper - Plastics - Metals - Inerts - Textiles - Nappies - Residuals GHG Emission Avoided Burden CH4 Energy Demand CO2 Recovery Materials ? Treatment options: Landfilling Incineration Mechanical-biological treatment (MBT)

4 Selected treatment technologies
EU LIFE+ Project MARSS rMSW rMSW rMSW Energy rMSW Energy Incineration MBT I (composting) MBT II* (drying) RRBF* Metal Metal Metal Energy recovery RRBF* Plastic Landfilling Landfilling Landfilling CH4 CO2 Energy CH4 Energy CH4 Energy CO2 Energy * RRBF = Refused Refined Biomass Fuel (Results from EU LIFE+ Project MARSS)

5 Origin of GHG emissions
Direct emissions CH4 Biodegradable materials under anaerobic conditions CO2 Combustion of fossil carbon Indirect emissions Energy demand GHG emissions from energy generation Avoided burdens Materials Substitution of primary raw materials Energy recovery Substitution of GHG emissions from energy generation  Relevant background  rMSW composition  Energy background system Metals / plastics Fossil carbon Biodegradable materials Energy content

6 Energy background system
Background for examplary modelling rMSW Composition A: Separate collection of plastics rMSW Composition B: Separate collection of biowaste Energy background system 1. Fossil 2. Renewable

7 Selected treatment technologies
Landfilling rMSW CH4 Incineration CO2 Energy MBT I (composting) Metal MBT II* (drying) Plastic Energy recovery RRBF* * RRBF = Refused Refined Biomass Fuel (Results from EU LIFE+ Project MARSS) Composition A High biomass content Composition B plastics content Fossil energy background Renewable

8 Modelling results

9 Conclusion No general statement in terms of superiority of a single technology Background = Decisive relevance on GHG emissions from rMSW management Current situation: Large share of fossil energy background  Pro incineration Future trend: Renewable energy background ?  Pro MBT

10 Contact Thank you! Dipl.-Ing. Adele Clausen
Department of Processing and Recycling RWTH Aachen University Wüllnerstr. 2 52062 Aachen (fon) (fax)

11 Relevance Kyoto Protocol: Reduction of GHG emissions (e.g. from waste)
EU Waste Framework Directive: Reduction GHG emissions from waste, LCA… EU Landfill Directive: Biomass reduction target

12 Background system Interaction of Stakeholders

13 Background system Dynamics of the background

14 Content Foreground system 1 Only upstream to rotting
2 Only applicable downstream to screening 3 Only applicable downstream to bio-drying 4 Only applicable downstream to Fe separation 5 Only applicable downstream to bio-drying and screening

15 Modelling Link Population - Foreground

16 Emission factor marginal energy
Modelling Link Markets/Population & Climate - Foreground Processes Market/Legislation Climate/Geology Shredding η Energy consumption - Screening η Overflow Separation η Product η Impurities Energy consumption Bio-drying η Oxidisation η GHG transformation Bio-stabilisation Temperature air Energy supply Emission factor marginal energy Landfill Type of landfill η LFG catchment η Energy recovery Humidity air

17 The Model Generic flow diagram of the Model

18 Scenarios Exemplary modelling * LFG catchment efficiency = 50%
Landfill MSWI MBS MBD 1.0 1.1 2.0 3.0 3.1 3.2 3.3 4.0 4.1 4.2 Biological stabilisation - x Biological drying Screen II MSWI I Fluidised bed MSWI II Metal separation I Metal separation II Plastics separation RDF refinery RTO LFG catchment * * LFG catchment efficiency = 50%

19 Results * LFG catchment efficiency = 50%

20 Summary Conclusion Outlook
Context significantly impacts the climate performance Priority order is not fix Composition and energy background are of special relevance Anaerobic digestion should be considered in future investigations The scope may be extended to non-EU countries Real context situations can be investigated Data for uncertainty studies should be investigated Outlook

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