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electrobiofuels,investment,1155460.1124,EUR/kW_th,combination of BtL and electrofuels,,2022.0,,
3930
3930
electrolysis,FOM,4.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 100 MW: Fixed O&M ,2020.0,,
3931
3931
electrolysis,efficiency,0.5773,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 100 MW: Hydrogen Output,2020.0,,
@@ -4079,12 +4079,12 @@ lignite,efficiency,0.33,p.u.,"Lazard's levelized cost of energy analysis - versi
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4079
lignite,fuel,3.2985,EUR/MWh_th,"DIW (2013): Current and propsective costs of electricity generation until 2050, http://hdl.handle.net/10419/80348 , pg. 80 text below figure 10, accessed: 2023-12-14.","Based on IEA 2011 data, 10 USD/t.",2010.0,,
4080
4080
lignite,investment,3827.1629,EUR/kW_e,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Higher costs include coal plants with CCS, but since using here for calculating the average nevertheless. Calculated based on average of listed range, i.e. (3200+6775) USD/kW_e/2 / (1.09 USD/EUR). Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf .",2023.0,,
4081
4081
lignite,lifetime,40.0,years,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,
4082
-
methanation,FOM,3.0,%/year,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), section 6.2.3.1",,2017.0,,
4082
+
methanation,FOM,3.0,%/year,Schaber thesis, from old pypsa cost assumptions,2015.0,,
4083
4083
methanation,carbondioxide-input,0.198,t_CO2/MWh_CH4,"Götz et al. (2016): Renewable Power-to-Gas: A technological and economic review (https://doi.org/10.1016/j.renene.2015.07.066), Fig. 11 .",Additional H2 required for methanation process (2x H2 amount compared to stochiometric conversion).,,,
4084
4084
methanation,efficiency,0.8,per unit,Palzer and Schaber thesis, from old pypsa cost assumptions,2015.0,,
4085
4085
methanation,hydrogen-input,1.282,MWh_H2/MWh_CH4,,Based on ideal conversion process of stochiometric composition (1 t CH4 contains 750 kg of carbon).,,,
4086
-
methanation,investment,777.5294,EUR/kW_CH4,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), table 6: “Reference scenario”.",,2017.0,,
4087
-
methanation,lifetime,20.0,years,Guesstimate.,"Based on lifetime for methanolisation, Fischer-Tropsch plants.",2017.0,,
4086
+
methanation,investment,1058.2216,EUR/kWH2,Schaber thesis, from old pypsa cost assumptions,2015.0,,
4087
+
methanation,lifetime,25.0,years,Schaber thesis, from old pypsa cost assumptions,2015.0,,
4088
4088
methane storage tank incl. compressor,FOM,1.9,%/year,"Guesstimate, based on hydrogen storage tank type 1 including compressor by DEA.",Based on assumptions for hydrogen storage tank type 1 including compressor (by DEA).,2014.0,,
4089
4089
methane storage tank incl. compressor,investment,8961.5075,EUR/m^3,Storage costs per l: https://www.compositesworld.com/articles/pressure-vessels-for-alternative-fuels-2014-2023 (2021-02-10).,"Assume 5USD/l (= 4.23 EUR/l at 1.17 USD/EUR exchange rate) for type 1 pressure vessel for 200 bar storage and 100% surplus costs for including compressor costs with storage, based on similar assumptions by DEA for compressed hydrogen storage tanks.",2014.0,,
4090
4090
methane storage tank incl. compressor,lifetime,30.0,years,"Guesstimate, based on hydrogen storage tank type 1 including compressor by DEA.",Based on assumptions for hydrogen storage tank 1 including compressor (by DEA).,2014.0,,
methanol-to-olefins/aromatics,investment,2781006.4359,EUR/(t_HVC/h),"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf), Table 35",Assuming CAPEX of 1200 €/t actually given in €/(t/a).,2015.0,,
4103
4103
methanol-to-olefins/aromatics,lifetime,30.0,years,Guesstimate,same as steam cracker,,,
4104
4104
methanol-to-olefins/aromatics,methanol-input,18.03,MWh_MeOH/t_HVC,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf), Sections 4.5 (for ethylene and propylene) and 4.6 (for BTX)","Weighted average: 2.83 t_MeOH/t_ethylene+propylene for 21.7 Mt of ethylene and 17 Mt of propylene, 4.2 t_MeOH/t_BTX for 15.7 Mt of BTX. Assuming 5.54 MWh_MeOH/t_MeOH. ",,,
4105
-
methanolisation,FOM,3.0,%/year,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), section 6.3.2.1.",,2017.0,,
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methanolisation,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
4107
4106
methanolisation,carbondioxide-input,0.248,t_CO2/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 66.",,,,
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methanolisation,electricity-input,0.271,MWh_e/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 65.",,,,
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methanolisation,heat-output,0.1,MWh_th/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 65.",steam generation of 2 GJ/t_MeOH,,,
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methanolisation,hydrogen-input,1.138,MWh_H2/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 64.",189 kg_H2 per t_MeOH,,,
4111
-
methanolisation,investment,819108.478,EUR/MW_MeOH,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), table 8: “Reference scenario”.","Well developed technology, no significant learning expected.",2017.0,,
4112
-
methanolisation,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Renewable Fuels (04/2022), Data sheet “Methanol to Power”.",,2017.0,,
4110
+
methanolisation,investment,1345.9296,EUR/kW-methanol,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",98 Methanol from hydrogen: Specific investment,2020.0,,
4111
+
methanolisation,lifetime,30.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",98 Methanol from hydrogen: Technical lifetime,2020.0,,
electrobiofuels,investment,1137499.3937,EUR/kW_th,combination of BtL and electrofuels,,2022.0,,
4016
4016
electrolysis,FOM,4.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 100 MW: Fixed O&M ,2020.0,,
4017
4017
electrolysis,efficiency,0.5874,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 100 MW: Hydrogen Output,2020.0,,
@@ -4165,12 +4165,12 @@ lignite,efficiency,0.33,p.u.,"Lazard's levelized cost of energy analysis - versi
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lignite,fuel,3.2985,EUR/MWh_th,"DIW (2013): Current and propsective costs of electricity generation until 2050, http://hdl.handle.net/10419/80348 , pg. 80 text below figure 10, accessed: 2023-12-14.","Based on IEA 2011 data, 10 USD/t.",2010.0,,
4166
4166
lignite,investment,3827.1629,EUR/kW_e,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Higher costs include coal plants with CCS, but since using here for calculating the average nevertheless. Calculated based on average of listed range, i.e. (3200+6775) USD/kW_e/2 / (1.09 USD/EUR). Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf .",2023.0,,
4167
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lignite,lifetime,40.0,years,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,
4168
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methanation,FOM,3.0,%/year,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), section 6.2.3.1",,2017.0,,
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+
methanation,FOM,3.0,%/year,Schaber thesis, from old pypsa cost assumptions,2015.0,,
4169
4169
methanation,carbondioxide-input,0.198,t_CO2/MWh_CH4,"Götz et al. (2016): Renewable Power-to-Gas: A technological and economic review (https://doi.org/10.1016/j.renene.2015.07.066), Fig. 11 .",Additional H2 required for methanation process (2x H2 amount compared to stochiometric conversion).,,,
4170
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methanation,efficiency,0.8,per unit,Palzer and Schaber thesis, from old pypsa cost assumptions,2015.0,,
4171
4171
methanation,hydrogen-input,1.282,MWh_H2/MWh_CH4,,Based on ideal conversion process of stochiometric composition (1 t CH4 contains 750 kg of carbon).,,,
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-
methanation,investment,728.6739,EUR/kW_CH4,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), table 6: “Reference scenario”.",,2017.0,,
4173
-
methanation,lifetime,20.0,years,Guesstimate.,"Based on lifetime for methanolisation, Fischer-Tropsch plants.",2017.0,,
4172
+
methanation,investment,1058.2216,EUR/kWH2,Schaber thesis, from old pypsa cost assumptions,2015.0,,
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+
methanation,lifetime,25.0,years,Schaber thesis, from old pypsa cost assumptions,2015.0,,
4174
4174
methane storage tank incl. compressor,FOM,1.9,%/year,"Guesstimate, based on hydrogen storage tank type 1 including compressor by DEA.",Based on assumptions for hydrogen storage tank type 1 including compressor (by DEA).,2014.0,,
4175
4175
methane storage tank incl. compressor,investment,8961.5075,EUR/m^3,Storage costs per l: https://www.compositesworld.com/articles/pressure-vessels-for-alternative-fuels-2014-2023 (2021-02-10).,"Assume 5USD/l (= 4.23 EUR/l at 1.17 USD/EUR exchange rate) for type 1 pressure vessel for 200 bar storage and 100% surplus costs for including compressor costs with storage, based on similar assumptions by DEA for compressed hydrogen storage tanks.",2014.0,,
4176
4176
methane storage tank incl. compressor,lifetime,30.0,years,"Guesstimate, based on hydrogen storage tank type 1 including compressor by DEA.",Based on assumptions for hydrogen storage tank 1 including compressor (by DEA).,2014.0,,
methanol-to-olefins/aromatics,investment,2781006.4359,EUR/(t_HVC/h),"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf), Table 35",Assuming CAPEX of 1200 €/t actually given in €/(t/a).,2015.0,,
4189
4189
methanol-to-olefins/aromatics,lifetime,30.0,years,Guesstimate,same as steam cracker,,,
4190
4190
methanol-to-olefins/aromatics,methanol-input,18.03,MWh_MeOH/t_HVC,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf), Sections 4.5 (for ethylene and propylene) and 4.6 (for BTX)","Weighted average: 2.83 t_MeOH/t_ethylene+propylene for 21.7 Mt of ethylene and 17 Mt of propylene, 4.2 t_MeOH/t_BTX for 15.7 Mt of BTX. Assuming 5.54 MWh_MeOH/t_MeOH. ",,,
4191
-
methanolisation,FOM,3.0,%/year,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), section 6.3.2.1.",,2017.0,,
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methanolisation,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
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methanolisation,carbondioxide-input,0.248,t_CO2/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 66.",,,,
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methanolisation,electricity-input,0.271,MWh_e/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 65.",,,,
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methanolisation,heat-output,0.1,MWh_th/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 65.",steam generation of 2 GJ/t_MeOH,,,
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methanolisation,hydrogen-input,1.138,MWh_H2/MWh_MeOH,"DECHEMA 2017: DECHEMA: Low carbon energy and feedstock for the European chemical industry (https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry.pdf) , pg. 64.",189 kg_H2 per t_MeOH,,,
4197
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methanolisation,investment,761417.4621,EUR/MW_MeOH,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), table 8: “Reference scenario”.","Well developed technology, no significant learning expected.",2017.0,,
4198
-
methanolisation,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Renewable Fuels (04/2022), Data sheet “Methanol to Power”.",,2017.0,,
4196
+
methanolisation,investment,1345.9296,EUR/kW-methanol,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",98 Methanol from hydrogen: Specific investment,2020.0,,
4197
+
methanolisation,lifetime,30.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",98 Methanol from hydrogen: Technical lifetime,2020.0,,
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