diff --git a/inputs/manual_input.csv b/inputs/manual_input.csv
index 5f5f84bc..890e467a 100644
--- a/inputs/manual_input.csv
+++ b/inputs/manual_input.csv
@@ -424,7 +424,7 @@ blast furnace-basic oxygen furnace,investment,2020,7637406,EUR/t_steel/h,2020,"M
 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,economic_lifetime,2020,20,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).",
-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 ‘Avg 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,coal-input,2020,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG."
 blast furnace-basic oxygen furnace,ore-input,2020,1.539,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 ‘Avg BF-BOF`
 blast furnace-basic oxygen furnace,scrap-input,2020,0.051,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 ‘Avg BF-BOF`
 cement dry clinker,investment,2006,1095000,EUR/t_clinker/h,2015,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx`, Sheet `IND` (ICMDRYPRD01, ICM.Dry Process Production.01) and currency year from file `SysSettings.xls`, sheet `Constants`, Attribute `G_Dyear` = 2015.",Original value 125 EUR/t/year
diff --git a/outputs/US/costs_2020.csv b/outputs/US/costs_2020.csv
index 63e6750e..025ec251 100644
--- a/outputs/US/costs_2020.csv
+++ b/outputs/US/costs_2020.csv
@@ -3602,7 +3602,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2025.csv b/outputs/US/costs_2025.csv
index 4bde3c07..e0d3e909 100644
--- a/outputs/US/costs_2025.csv
+++ b/outputs/US/costs_2025.csv
@@ -3682,7 +3682,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,4348.8608,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2030.csv b/outputs/US/costs_2030.csv
index e3b44c42..6cbf8a81 100644
--- a/outputs/US/costs_2030.csv
+++ b/outputs/US/costs_2030.csv
@@ -3838,7 +3838,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,3106.3291,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2035.csv b/outputs/US/costs_2035.csv
index 305c93a9..00b3eb54 100644
--- a/outputs/US/costs_2035.csv
+++ b/outputs/US/costs_2035.csv
@@ -3862,7 +3862,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,2681.013,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2040.csv b/outputs/US/costs_2040.csv
index e5e99808..ef2d98a9 100644
--- a/outputs/US/costs_2040.csv
+++ b/outputs/US/costs_2040.csv
@@ -3862,7 +3862,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,2255.697,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2045.csv b/outputs/US/costs_2045.csv
index 45450fc9..cf493903 100644
--- a/outputs/US/costs_2045.csv
+++ b/outputs/US/costs_2045.csv
@@ -3862,7 +3862,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,1904.4308,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/US/costs_2050.csv b/outputs/US/costs_2050.csv
index 8cee5d8d..abfd7355 100644
--- a/outputs/US/costs_2050.csv
+++ b/outputs/US/costs_2050.csv
@@ -3862,7 +3862,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,1553.1646,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0,,
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0,,
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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,,
diff --git a/outputs/costs_2020.csv b/outputs/costs_2020.csv
index 716d6f0e..1af08146 100644
--- a/outputs/costs_2020.csv
+++ b/outputs/costs_2020.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2025.csv b/outputs/costs_2025.csv
index 82368384..d3fdcd88 100644
--- a/outputs/costs_2025.csv
+++ b/outputs/costs_2025.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,4348.8608,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2030.csv b/outputs/costs_2030.csv
index e90bc8a9..33de387b 100644
--- a/outputs/costs_2030.csv
+++ b/outputs/costs_2030.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,3106.3291,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2035.csv b/outputs/costs_2035.csv
index 212c260c..3f653b6f 100644
--- a/outputs/costs_2035.csv
+++ b/outputs/costs_2035.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,2681.013,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2040.csv b/outputs/costs_2040.csv
index 6589ed55..8ff11ab4 100644
--- a/outputs/costs_2040.csv
+++ b/outputs/costs_2040.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,2255.697,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2045.csv b/outputs/costs_2045.csv
index 26f4596f..892b1970 100644
--- a/outputs/costs_2045.csv
+++ b/outputs/costs_2045.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,1904.4308,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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
diff --git a/outputs/costs_2050.csv b/outputs/costs_2050.csv
index e2ae55ca..fc37538f 100644
--- a/outputs/costs_2050.csv
+++ b/outputs/costs_2050.csv
@@ -706,7 +706,7 @@ biomass-to-methanol,efficiency-heat,0.22,per unit,"Danish Energy Agency, inputs/
 biomass-to-methanol,investment,1553.1646,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,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 ‘Avg 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,coal-input,5.34,MWh_coal/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#L21, accessed: 2025-11-10). ","Based on process ‘BAT BF-BOF` Emissivity without CCS using specific emissivity for coal of 0.3361 t_CO2/MWh; composition of 0.44 GJ met-coal, 4.75 GJ coke, 1.35 GJ thermal coal which is translated to one representative coal demand which also includes coal demand for intermediate products like BF gas, BOF gas and COG.",2020.0
 blast furnace-basic oxygen furnace,economic_lifetime,20.0,years,"Mission Possible Partnership (2022): Steel Model Documentation (https://mpp.gitbook.io/mpp-steel-model/model-overview/model-components/technologies, accessed: 2025-04-15).",,2020.0
 blast furnace-basic oxygen furnace,investment,7637406.0,EUR/t_steel/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