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Copy file name to clipboardExpand all lines: docs/release_notes.rst
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* Align cost units for NREL battery data with PyPSA modeling, fetching investment cost and FOM for both `battery storage` and `battery inverter` instead of a single value for `battery storage`, which was instead representative of the full plant (battery storage + battery inverter).
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* Add excess heat output rates for Fischer-Tropsch and Haber-Bosch processes.
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* Updated indexing of DEA Excel data for PTES and revised capital cost and FOM assumptions for 2045 and 2050.
Copy file name to clipboardExpand all lines: outputs/US/costs_2020.csv
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@@ -826,6 +826,7 @@ Fischer-Tropsch,VOM,5.636,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_f
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Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
827
827
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
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Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
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+
Fischer-Tropsch,efficiency-heat,0.25,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
829
830
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
830
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Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
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Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1049,6 +1050,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
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HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
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Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
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+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1052
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Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
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Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
1054
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Haber-Bosch,investment,1785.0713,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
Copy file name to clipboardExpand all lines: outputs/US/costs_2025.csv
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@@ -862,6 +862,7 @@ Fischer-Tropsch,VOM,5.0512,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_
862
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Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
863
863
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
864
864
Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
865
+
Fischer-Tropsch,efficiency-heat,0.225,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
865
866
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
866
867
Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
867
868
Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1085,6 +1086,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
1085
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HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
1087
1088
Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
1089
+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1088
1090
Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
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Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
1090
1092
Haber-Bosch,investment,1622.5424,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
Copy file name to clipboardExpand all lines: outputs/US/costs_2030.csv
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@@ -862,6 +862,7 @@ Fischer-Tropsch,VOM,4.4663,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_
862
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Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
863
863
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
864
864
Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
865
+
Fischer-Tropsch,efficiency-heat,0.2,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
865
866
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
866
867
Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
867
868
Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1085,6 +1086,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
1085
1086
HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
1086
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
1087
1088
Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
1089
+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1088
1090
Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
1089
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Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
1090
1092
Haber-Bosch,investment,1460.0135,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
Copy file name to clipboardExpand all lines: outputs/US/costs_2035.csv
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@@ -862,6 +862,7 @@ Fischer-Tropsch,VOM,3.9346,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_
862
862
Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
863
863
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
864
864
Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
865
+
Fischer-Tropsch,efficiency-heat,0.185,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
865
866
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
866
867
Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
867
868
Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1085,6 +1086,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
1085
1086
HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
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1088
Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
1089
+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1088
1090
Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
1089
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Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
1090
1092
Haber-Bosch,investment,1327.0808,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
Copy file name to clipboardExpand all lines: outputs/US/costs_2040.csv
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@@ -862,6 +862,7 @@ Fischer-Tropsch,VOM,3.4029,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_
862
862
Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
863
863
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
864
864
Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
865
+
Fischer-Tropsch,efficiency-heat,0.17,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
865
866
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
866
867
Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
867
868
Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1085,6 +1086,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
1085
1086
HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
1086
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
1087
1088
Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
1089
+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1088
1090
Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
1089
1091
Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
1090
1092
Haber-Bosch,investment,1194.148,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
Copy file name to clipboardExpand all lines: outputs/US/costs_2045.csv
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@@ -862,6 +862,7 @@ Fischer-Tropsch,VOM,2.818,EUR/MWh_FT,"Danish Energy Agency, inputs/data_sheets_f
862
862
Fischer-Tropsch,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
863
863
Fischer-Tropsch,carbondioxide-input,0.32,t_CO2/MWh_FT,ICCT IRA e-fuels assumptions ,"Input per 1t FT liquid fuels output, carbon efficiency increases with years (4.3, 3.9, 3.6, 3.3 t_CO2/t_FT from 2020-2050 with LHV 11.95 MWh_th/t_FT).",,,
864
864
Fischer-Tropsch,efficiency,0.7,per unit,ICCT IRA e-fuels assumptions ,,,,
865
+
Fischer-Tropsch,efficiency-heat,0.16,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","102 Hydrogen to Jet: District Heat Output,",2020.0,,
865
866
Fischer-Tropsch,electricity-input,0.04,MWh_el/MWh_FT,ICCT IRA e-fuels assumptions ,"0.005 MWh_el input per FT output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
866
867
Fischer-Tropsch,hydrogen-input,1.43,MWh_H2/MWh_FT,ICCT IRA e-fuels assumptions ,"0.995 MWh_H2 per output, output increasing from 2020 to 2050 (0.65, 0.7, 0.73, 0.75 MWh liquid FT output).",,,
867
868
Fischer-Tropsch,investment,1482100.9059,USD/MW_FT,ICCT IRA e-fuels assumptions ,,2022.0,,
@@ -1085,6 +1086,7 @@ HVDC underground,investment,1008.2934,EUR/MW/km,Härtel et al. (2017): https://d
1085
1086
HVDC underground,lifetime,40.0,years,Purvins et al. (2018): https://doi.org/10.1016/j.jclepro.2018.03.095 .,"Based on estimated costs for a NA-EU connector (bidirectional,4 GW, 3000km length and ca. 3000m depth). Costs in return based on existing/currently under construction undersea cables. (same as for HVDC submarine)",2018.0,,
1086
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Haber-Bosch,FOM,3.0,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Fixed O&M,2015.0,,
1087
1088
Haber-Bosch,VOM,0.0225,EUR/MWh_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Variable O&M,2015.0,,
1089
+
Haber-Bosch,efficiency-heat,0.146,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","103 Hydrogen to Ammonia: High value heat Output + District Heating Output,",2015.0,,
1088
1090
Haber-Bosch,electricity-input,0.2473,MWh_el/MWh_NH3,"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 11.",Assume 5 GJ/t_NH3 for compressors and NH3 LHV = 5.16666 MWh/t_NH3.,,,
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Haber-Bosch,hydrogen-input,1.1484,MWh_H2/MWh_NH3,"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. 57.","178 kg_H2 per t_NH3, LHV for both assumed.",,,
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Haber-Bosch,investment,1054.8211,EUR/kW_NH3,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",103 Hydrogen to Ammonia: Specific investment,2015.0,,
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