PyPSA
diff --git a/‎inputs/manual_input.csv‎
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diff --git a/‎outputs/US/costs_2020.csv‎
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Lines changed: 18 additions & 6 deletions
@@ -410,3 +410,9 @@ iron-air battery discharge,efficiency,2030,0.6,per unit,2023,"Form Energy, docu/
 iron-air battery discharge,efficiency,2035,0.62,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery discharge,efficiency,2040,0.63,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery,lifetime,2030,17.5,years,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+blast furnace-basic oxygen furnace,investment,2020,7637406,EUR/t_HBI/h,2020,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",871.85 EUR/t_steel output/a. MPP steel tool uses CAPEX/OPEX for technology ‘Avg BF-BOF’.
+blast furnace-basic oxygen furnace,FOM,2020,14.18,%/year,2020,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",123.67 EUR/t_steel output/a. MPP steel tool uses CAPEX/OPEX for technology ‘BF-BOF’.
+blast furnace-basic oxygen furnace,lifetime,2020,40,years,2020,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",MPP steel model distinguishes between plant lifetime (40 years) and investment cycle (20 years). Choose plant lifetime.
+blast furnace-basic oxygen furnace,coal-input,2020,1.43,MWh_coal/t_steel,2020,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15). ","Based on process ‘BF-BOF` using 195 kg_PCI/t_HM (PCI = Pulverized Coal Injected; HM = Hot Metal) as substitute for coke, 24 MJ/kg as LHV for coal and 1 : 1.1 as HM-to-steel ratio."
+blast furnace-basic oxygen furnace,ore-input,2020,0.051,t_ore/t_steel,2020,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15). ",Based on process ‘BF-BOF`
+blast furnace-basic oxygen furnace,Scrap-input,2020,0.251,t_scrap/t_steel,2020,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15). ",Based on process ‘BF-BOF`
@@ -3568,6 +3568,12 @@ biomass-to-methanol,efficiency-electricity,0.02,MWh_e/MWh_th,"Danish Energy Agen
 biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","97 Methanol from biomass gasif.:  District heat  Output,",2020.0,,
 biomass-to-methanol,investment,5591.3924,EUR/kW_MeOH,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",97 Methanol from biomass gasif.:  Specific investment,2020.0,,
 biomass-to-methanol,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",97 Methanol from biomass gasif.:  Technical lifetime,2020.0,,
+blast furnace-basic oxygen furnace,FOM,14.18,%/year,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",123.67 EUR/t_steel output/a. MPP steel tool uses CAPEX/OPEX for technology ‘BF-BOF’.,2020.0,,
+blast furnace-basic oxygen furnace,Scrap-input,0.251,t_scrap/t_steel,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15). ",Based on process ‘BF-BOF`,2020.0,,
+blast furnace-basic oxygen furnace,coal-input,1.43,MWh_coal/t_steel,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15). ","Based on process ‘BF-BOF` using 195 kg_PCI/t_HM (PCI = Pulverized Coal Injected; HM = Hot Metal) as substitute for coke, 24 MJ/kg as LHV for coal and 1 : 1.1 as HM-to-steel ratio.",2020.0,,
+blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_HBI/h,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",871.85 EUR/t_steel output/a. MPP steel tool uses CAPEX/OPEX for technology ‘Avg BF-BOF’.,2020.0,,
+blast furnace-basic oxygen furnace,lifetime,40.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",MPP steel model distinguishes between plant lifetime (40 years) and investment cycle (20 years). Choose plant lifetime.,2020.0,,
+blast furnace-basic oxygen furnace,ore-input,0.051,t_ore/t_steel,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15). ",Based on process ‘BF-BOF`,2020.0,,
 cement capture,FOM,3.0,%/year,"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
 cement capture,capture_rate,0.9,per unit,"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
 cement capture,compression-electricity-input,0.1,MWh/tCO2,"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
@@ -3824,12 +3830,12 @@ direct firing solid fuels CC,VOM,0.3276,EUR/MWh,"Danish Energy Agency, inputs/te
 direct firing solid fuels CC,efficiency,1.0,per unit,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx","312.b Direct firing Sold Fuels:  Total efficiency, net, annual average",2019.0,,
 direct firing solid fuels CC,investment,221.54,EUR/kW,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",312.b Direct firing Sold Fuels:  Nominal investment,2019.0,,
 direct firing solid fuels CC,lifetime,15.0,years,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",312.b Direct firing Sold Fuels:  Technical lifetime,2019.0,,
-direct iron reduction furnace,FOM,11.3,%/year,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.","55.28 EUR/t_HBI output/a. MPP steel tool uses CAPEX/OPEX for technology ‘DRI-EAF_100% green H2’, substract ‘EAF’ OPEX here to estimate DRI furnace cost.",2020.0,,
-direct iron reduction furnace,electricity-input,1.03,MWh_el/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2022-12-03).",Based on process ‘DRI-EAF_100% green H2’ reduced by electricity demand of process ‘EAF’.,2020.0,,
-direct iron reduction furnace,hydrogen-input,2.1,MWh_H2/t_hbi,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2022-12-05). ","63 kg H2/t steel for process ‘DRI-EAF_100% green H2’ according to documentation (raw input files for MPP model list 73 kg H2 / t steel, which seems to high and is probably incorrect).",2020.0,,
-direct iron reduction furnace,investment,4277858.0,EUR/t_HBI/h,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.","488.34 EUR/t_HBI output/a. MPP steel tool uses CAPEX/OPEX for technology ‘DRI-EAF_100% green H2’, substract ‘EAF’ CAPEX here to estimate DRI furnace cost.",2020.0,,
-direct iron reduction furnace,lifetime,40.0,years,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.",MPP steel model distinguishes between plant lifetime (40 years) and investment cycle (20 years). Choose plant lifetime.,2020.0,,
-direct iron reduction furnace,ore-input,1.59,t_ore/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2022-12-03). ",Based on process ‘DRI-EAF_100% green H2’.,2020.0,,
+direct iron reduction furnace,FOM,11.3,%/year,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",,2020.0,,
+direct iron reduction furnace,electricity-input,1.03,MWh_el/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15).",,2020.0,,
+direct iron reduction furnace,investment,4277858.0,EUR/t_HBI/h,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",,2020.0,,
+direct iron reduction furnace,lifetime,40.0,years,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2025-04-15.",,2020.0,,
+direct iron reduction furnace,natural_gas-input,2.78,MWh_NG/t_hbi,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15). ",,2020.0,,
+direct iron reduction furnace,ore-input,1.59,t_ore/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2025-04-15). ",,2020.0,,
 dry bulk carrier Capesize,FOM,4.0,%/year,"Based on https://www.hellenicshippingnews.com/capesize-freight-returns-below-operating-expense-levels-but-shipowners-reject-lay-ups/, accessed: 2022-12-03.","5000 USD/d OPEX, exchange rate: 1.15 USD = 1 EUR; absolute value calculate relative to investment cost.",2020.0,,
 dry bulk carrier Capesize,capacity,180000.0,t,-,"DWT; corresponds to size of Capesize bulk carriers which have previously docked at the habour in Hamburg, Germany. Short of 200 kt limit for VLBCs.",2020.0,,
 dry bulk carrier Capesize,investment,40000000.0,EUR,"Based on https://www.hellenicshippingnews.com/dry-bulk-carriers-in-high-demand-as-rates-keep-rallying/, accessed: 2022-12-03.","See figure for ‘Dry Bulk Newbuild Prices’, Capesize at end of 2020. Exchange rate: 1.15 USD = 1 EUR.",2020.0,,
@@ -3957,6 +3963,12 @@ hydro,investment,2574.0603,USD/kW,NREL/ATB-https://data.openei.org/s3_viewer?buc
 hydro,investment,2574.0603,USD/kW,NREL/ATB-https://data.openei.org/s3_viewer?bucket=oedi-data-lake&prefix=ATB%2Felectricity%2Fcsv%2F2022%2F,Meaning of scenario and financial case: https://atb.nrel.gov/electricity/2024/definitions#scenarios,2020.0,R&D,Conservative
 hydro,investment,2574.0603,USD/kW,NREL/ATB-https://data.openei.org/s3_viewer?bucket=oedi-data-lake&prefix=ATB%2Felectricity%2Fcsv%2F2022%2F,Meaning of scenario and financial case: https://atb.nrel.gov/electricity/2024/definitions#scenarios,2020.0,R&D,Moderate
 hydro,lifetime,80.0,years,IEA2010, from old pypsa cost assumptions,2015.0,,
+hydrogen direct iron reduction furnace,FOM,11.3,%/year,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.","55.28 EUR/t_HBI output/a. MPP steel tool uses CAPEX/OPEX for technology ‘DRI-EAF_100% green H2’, substract ‘EAF’ OPEX here to estimate DRI furnace cost.",2020.0,,
+hydrogen direct iron reduction furnace,electricity-input,1.03,MWh_el/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2022-12-03).",Based on process ‘DRI-EAF_100% green H2’ reduced by electricity demand of process ‘EAF’.,2020.0,,
+hydrogen direct iron reduction furnace,hydrogen-input,2.1,MWh_H2/t_hbi,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2022-12-05). ","63 kg H2/t steel for process ‘DRI-EAF_100% green H2’ according to documentation (raw input files for MPP model list 73 kg H2 / t steel, which seems to high and is probably incorrect).",2020.0,,
+hydrogen direct iron reduction furnace,investment,4277858.0,EUR/t_HBI/h,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.","488.34 EUR/t_HBI output/a. MPP steel tool uses CAPEX/OPEX for technology ‘DRI-EAF_100% green H2’, substract ‘EAF’ CAPEX here to estimate DRI furnace cost.",2020.0,,
+hydrogen direct iron reduction furnace,lifetime,40.0,years,"Model assumptions from MPP Steel Transition Tool: https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/CAPEX%20OPEX%20Per%20Technology.xlsx, accessed: 2022-12-05.",MPP steel model distinguishes between plant lifetime (40 years) and investment cycle (20 years). Choose plant lifetime.,2020.0,,
+hydrogen direct iron reduction furnace,ore-input,1.59,t_ore/t_hbi,"Mission Possible Partnership (2022): Steel Model (https://github.com/missionpossiblepartnership/mpp-steel-model/blob/9eca52db92bd2d9715f30e98ccaaf36677fdb516/mppsteel/data/import_data/Technology%20Business%20Cases.csv, accessed: 2022-12-03). ",Based on process ‘DRI-EAF_100% green H2’.,2020.0,,
 hydrogen storage compressor,FOM,4.0,%/year,ICCT IRA e-fuels assumptions ,,2022.0,,
 hydrogen storage compressor,compression-electricity-input,0.05,MWh_el/MWh_H2,"Based on Stöckl et al (2021): https://doi.org/10.48550/arXiv.2005.03464, table SI.4.",1.707 kWh/kg.,,,
 hydrogen storage compressor,investment,1.9919,USD/kWh_H2,ICCT IRA e-fuels assumptions ,,2022.0,,