diff --git a/docs/release_notes.rst b/docs/release_notes.rst index cf22cb66..a9c08d10 100644 --- a/docs/release_notes.rst +++ b/docs/release_notes.rst @@ -21,6 +21,8 @@ Upcoming Release * Add standing losses as parameters for LTES +* Corrected CO2 content in biogas + `v0.13.2 `__ (13th June 2025) ======================================================================================= diff --git a/outputs/US/costs_2020.csv b/outputs/US/costs_2020.csv index 553fa294..613eedf3 100644 --- a/outputs/US/costs_2020.csv +++ b/outputs/US/costs_2020.csv @@ -3493,14 +3493,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,96.2077,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,62.1519,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,1032.4577,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2025.csv b/outputs/US/costs_2025.csv index 2d306b1e..891bd53b 100644 --- a/outputs/US/costs_2025.csv +++ b/outputs/US/costs_2025.csv @@ -3573,14 +3573,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,116.9293,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,72.2943,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,1097.9155,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2030.csv b/outputs/US/costs_2030.csv index b6a83c3c..397336d8 100644 --- a/outputs/US/costs_2030.csv +++ b/outputs/US/costs_2030.csv @@ -3729,14 +3729,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.6508,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,82.4367,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,955.1865,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2035.csv b/outputs/US/costs_2035.csv index 0eabb35d..4e2fbb20 100644 --- a/outputs/US/costs_2035.csv +++ b/outputs/US/costs_2035.csv @@ -3753,14 +3753,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.5968,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,84.2795,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,938.7177,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2040.csv b/outputs/US/costs_2040.csv index 089538ea..4da1f852 100644 --- a/outputs/US/costs_2040.csv +++ b/outputs/US/costs_2040.csv @@ -3753,14 +3753,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.5427,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,86.1222,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,922.249,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2045.csv b/outputs/US/costs_2045.csv index 836a28d8..4b370469 100644 --- a/outputs/US/costs_2045.csv +++ b/outputs/US/costs_2045.csv @@ -3753,14 +3753,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,134.6872,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,87.9862,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,894.8011,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/US/costs_2050.csv b/outputs/US/costs_2050.csv index 588b3882..e7acbae2 100644 --- a/outputs/US/costs_2050.csv +++ b/outputs/US/costs_2050.csv @@ -3753,14 +3753,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,131.8317,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0,, bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).",,, bioethanol crops,fuel,89.8502,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0,, -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0,, biogas,investment,867.3532,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0,, biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0,, -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",,,, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0,, biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,,,, diff --git a/outputs/costs_2020.csv b/outputs/costs_2020.csv index 150b4b81..4c27f849 100644 --- a/outputs/costs_2020.csv +++ b/outputs/costs_2020.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,96.2077,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,62.1519,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,1032.4577,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2025.csv b/outputs/costs_2025.csv index 859705b4..506f3c3a 100644 --- a/outputs/costs_2025.csv +++ b/outputs/costs_2025.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,116.9293,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,72.2943,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,1097.9155,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2030.csv b/outputs/costs_2030.csv index 5328099c..8573f6a7 100644 --- a/outputs/costs_2030.csv +++ b/outputs/costs_2030.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.6508,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,82.4367,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,955.1865,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2035.csv b/outputs/costs_2035.csv index 6a354788..ec76b771 100644 --- a/outputs/costs_2035.csv +++ b/outputs/costs_2035.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.5968,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,84.2795,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,938.7177,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2040.csv b/outputs/costs_2040.csv index 8d94db34..3396d5ab 100644 --- a/outputs/costs_2040.csv +++ b/outputs/costs_2040.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,137.5427,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,86.1222,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,922.249,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2045.csv b/outputs/costs_2045.csv index f579d8a0..6e813136 100644 --- a/outputs/costs_2045.csv +++ b/outputs/costs_2045.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,134.6872,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,87.9862,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,894.8011,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/outputs/costs_2050.csv b/outputs/costs_2050.csv index fb4a58e9..6dbd62ea 100644 --- a/outputs/costs_2050.csv +++ b/outputs/costs_2050.csv @@ -630,14 +630,14 @@ biochar pyrolysis,yield-biochar,0.0582,ton biochar/MWh_feedstock,"Danish Energy biodiesel crops,fuel,131.8317,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIORPS1 (rape seed), ENS_BaU_GFTM",,2010.0 bioethanol crops,CO2 intensity,0.1289,tCO2/MWh_th,,"CO2 released during fermentation of bioethanol crops, based on stochiometric composition: C6H12O6 -> 2 C2H5OH + 2 CO2 , i.e. 1 kg ethanol → ~0.956 kg CO₂ (from fermentation) → 0.1289 tCO₂/MWh (with LHV = 26.7 MJ/kg).", bioethanol crops,fuel,89.8502,EUR/MWhth,"JRC ENSPRESO ca avg for MINBIOCRP11 (Bioethanol barley, wheat, grain maize, oats, other cereals and rye), ENS_BaU_GFTM",,2010.0 -biogas,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, biogas,fuel,62.4351,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions,2015.0 biogas,investment,867.3532,EUR/kW,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Specific investment",2020.0 biogas,lifetime,20.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Technical lifetime",2020.0 -biogas CC,CO2 stored,0.0868,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, +biogas CC,CO2 stored,0.1447,tCO2/MWh_th,"Stoichiometric calculation, doi:10.1016/j.apenergy.2022.120016",, biogas CC,FOM,7.7769,%/year,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx","81 Biogas, Basic plant, small: Total O&M",2020.0 biogas CC,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,, biogas CC,efficiency,1.0,per unit,Assuming input biomass is already given in biogas output,, diff --git a/scripts/compile_cost_assumptions.py b/scripts/compile_cost_assumptions.py index e4a269de..52a8f317 100644 --- a/scripts/compile_cost_assumptions.py +++ b/scripts/compile_cost_assumptions.py @@ -3126,7 +3126,7 @@ def carbon_flow( CH4_density = 0.657 # kg/Nm3 CO2_density = 1.98 # kg/Nm3 CH4_vol_energy_density = ( - CH4_specific_energy * CH4_density / (1000 * 3.6) + (1 - AD_CO2_share) * CH4_specific_energy * CH4_density / (1000 * 3.6) ) # MJ/Nm3 -> MWh/Nm3 CO2_weight_share = ( AD_CO2_share * CO2_density