PyPSA
diff --git a/‎inputs/manual_input.csv‎
Lines changed: 27 additions & 6 deletions b/‎inputs/manual_input.csv‎
Lines changed: 27 additions & 6 deletions
@@ -319,7 +319,7 @@ direct iron reduction furnace,investment,2020,4277858,EUR/t_HBI/h,2020,"Model as
 direct iron reduction furnace,FOM,2020,11.3,%/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.",
 direct iron reduction furnace,lifetime,2020,40,years,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.",
 direct iron reduction furnace,electricity-input,2020,1.03,MWh_el/t_hbi,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).",
-direct iron reduction furnace,natural_gas-input,2020,2.78,MWh_NG/t_hbi,2020,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15). ",
+direct iron reduction furnace,gas-input,2020,2.78,MWh_NG/t_hbi,2020,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15). ",
 direct iron reduction furnace,ore-input,2020,1.59,t_ore/t_hbi,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). ",
 electric arc furnace,investment,2020,1839600,EUR/t_steel/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: 2022-12-05.",210 EUR/t_steel output/a. MPP steel tool uses CAPEX/OPEX for technology ‘EAF’.
 electric arc furnace,FOM,2020,30,%/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: 2022-12-05.","EAF has high OPEX of 62.99 EUR/year/t_steel, presumably because of electrode corrosion."
@@ -398,21 +398,42 @@ iron-air battery,FOM,2030,1,%/year,2023,"Form Energy, docu/FormEnergy_Europe_mod
 iron-air battery,FOM,2035,1.10628646943421,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery,FOM,2040,1.1807773334732,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery,investment,2025,30.05,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,investment,2030,20.00,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2030,20,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery,investment,2035,15.11,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery,investment,2040,13.33,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery charge,efficiency,2025,0.70,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery charge,efficiency,2025,0.7,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery charge,efficiency,2030,0.71,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery charge,efficiency,2035,0.73,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery charge,efficiency,2040,0.74,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 iron-air battery discharge,efficiency,2025,0.59,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery discharge,efficiency,2030,0.60,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery discharge,efficiency,2030,0.6,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
 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,investment,2020,7637406,EUR/t_steel/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`
+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`
+cement dry clinker,investment,2020,125,EUR/t_clinker,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement dry clinker,FOM,2020,4,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement dry clinker,VOM,2020,4,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement dry clinker,lifetime,2020,25,years,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement dry clinker,gas-input,2020,1.9,MWh_NG/t_cl,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement dry clinker,electricity-input,2020,30,MWh_el/t_cl,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",
+cement finishing,investment,2020,10,EUR/t_cement,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",Based on inputs for DE (major EU producer)
+cement finishing,FOM,2020,30,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",Based on inputs for DE (major EU producer)
+cement finishing,VOM,2020,30,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",Based on inputs for DE (major EU producer)
+cement finishing,electricity-input,2020,174,MWh_el/t_cem,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",Based on inputs for DE (major EU producer)
+cement finishing,clinker-input,2020,0.656,t_cl/t_cem,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (ICMDRYPRD01, ICM.Dry Process Production.01)",Based on inputs for DE (major EU producer)
+ethanol from starch crop,investment,2020,2437,EUR/MWh_eth,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )",Suited for USA and European production. Original value 677 MEUR/PJ_eth
+ethanol from starch crop,FOM,2020,14,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )",Suited for USA and European production
+ethanol from starch crop,VOM,2020,1,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )",Suited for USA and European production
+ethanol from starch crop,lifetime,2020,20,years,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )",Suited for USA and European production
+ethanol from starch crop,efficiency,2020,0.58,p.u.,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )","Suited for USA and European production. Converted from 0.35 t_crop/t_eth, LHV_crop = 16.1 GJ/t, LHV_ethanol = 26.7 GJ/t"
+ethanol from sugar crops,investment,2020,1804,EUR/MWh_eth,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production. Original value 501 MEUR/PJ_eth
+ethanol from sugar crops,FOM,2020,16,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production
+ethanol from sugar crops,VOM,2020,1.2,%/year,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production
+ethanol from sugar crops,lifetime,2020,20,years,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production
+ethanol from sugar crops,efficiency,2020,0.45,p.u.,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_CHP_SUP_IND.xlsx` and `SubRES_15_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )","Suited for Brazilian production. Converted from 0.292 t_crop/t_eth, LHV_crop = 16.1 GJ/t, LHV_ethanol = 26.7 GJ/t"