From e9617bca64cbbc617f0a4e010f850177a72ba4c9 Mon Sep 17 00:00:00 2001 From: Fabian Date: Wed, 26 Aug 2020 10:06:10 +0200 Subject: [PATCH] store cost data in resources enable retrievement in config --- Snakefile | 15 +- config.default.yaml | 1 + config.tutorial.yaml | 1 + data/costs.csv | 308 ----------------------------------------- test/config.test1.yaml | 1 + 5 files changed, 11 insertions(+), 315 deletions(-) delete mode 100644 data/costs.csv diff --git a/Snakefile b/Snakefile index 84662eaf..59cc89bd 100644 --- a/Snakefile +++ b/Snakefile @@ -10,7 +10,7 @@ if not exists("config.yaml"): configfile: "config.yaml" -COSTS="data/costs.csv" +COSTS="resources/costs.csv" wildcard_constraints: ll="(v|c)([0-9\.]+|opt|all)|all", # line limit, can be volume or cost @@ -164,12 +164,13 @@ if config['enable'].get('retrieve_natura_raster', True): log: "logs/retrieve_natura_raster.log" script: 'scripts/retrieve_natura_raster.py' -rule retrieve_cost_data: - params: - year = config['costs']['year'], - version = config['costs']['version'], - output: COSTS - shell: 'curl https://raw.githubusercontent.com/PyPSA/technology-data/{params.version}/outputs/costs_{params.year}.csv -o {output}' +if config['enable'].get('retrieve_cost_data', True): + rule retrieve_cost_data: + params: + year = config['costs']['year'], + version = config['costs']['version'], + output: COSTS + shell: 'curl https://raw.githubusercontent.com/PyPSA/technology-data/{params.version}/outputs/costs_{params.year}.csv -o {output}' rule build_renewable_profiles: input: diff --git a/config.default.yaml b/config.default.yaml index 375bcda6..d0d78730 100755 --- a/config.default.yaml +++ b/config.default.yaml @@ -28,6 +28,7 @@ snapshots: enable: prepare_links_p_nom: false retrieve_databundle: true + retrieve_cost_data: true build_cutout: false retrieve_cutout: true build_natura_raster: false diff --git a/config.tutorial.yaml b/config.tutorial.yaml index f77ad2bd..1aa589ca 100755 --- a/config.tutorial.yaml +++ b/config.tutorial.yaml @@ -27,6 +27,7 @@ snapshots: enable: prepare_links_p_nom: false retrieve_databundle: true + retrieve_cost_data: true build_cutout: false retrieve_cutout: true build_natura_raster: false diff --git a/data/costs.csv b/data/costs.csv deleted file mode 100644 index 8b50f24d..00000000 --- a/data/costs.csv +++ /dev/null @@ -1,308 +0,0 @@ -technology,parameter,value,unit,source,further description -CCGT,FOM,3.35,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Fixed O&M" -CCGT,VOM,4.2,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Variable O&M" -CCGT,c_b,2.0,50oC/100oC,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Cb coefficient" -CCGT,c_v,0.15,50oC/100oC,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Cv coefficient" -CCGT,efficiency,0.58,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Electricity efficiency, annual average" -CCGT,investment,830.0,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Nominal investment" -CCGT,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","05 Gas turb. CC, steam extract.: Technical lifetime" -DAC,FOM,4.0,%/year,Fasihi, from old pypsa cost assumptions -DAC,investment,383.0,EUR/(tCO2/a),Fasihi, -DAC,lifetime,30.0,years,Fasihi, from old pypsa cost assumptions -Fischer-Tropsch,FOM,3.0,%/year,doi:10.3390/su9020306, from old pypsa cost assumptions -Fischer-Tropsch,efficiency,0.8,per unit,TODO, from old pypsa cost assumptions -Fischer-Tropsch,investment,677.6,EUR/kWH2,Fasihi doi:10.3390/su9020306 (60 kEUR/bpd = 847 EUR/kWL (1b = 1.7 MWh) 847*0.8 = 677.6), from old pypsa cost assumptions -Fischer-Tropsch,lifetime,30.0,years,doi:10.3390/su9020306, from old pypsa cost assumptions -Gasnetz,FOM,2.5,%,"WEGE ZU EINEM KLIMANEUTRALEN ENERGIESYSEM, Anhang zur Studie, Fraunhofer-Institut für Solare Energiesysteme ISE, Freiburg",Gasnetz -Gasnetz,investment,28.0,EUR/kWGas,"WEGE ZU EINEM KLIMANEUTRALEN ENERGIESYSEM, Anhang zur Studie, Fraunhofer-Institut für Solare Energiesysteme ISE, Freiburg",Gasnetz -Gasnetz,lifetime,30.0,years,"WEGE ZU EINEM KLIMANEUTRALEN ENERGIESYSEM, Anhang zur Studie, Fraunhofer-Institut für Solare Energiesysteme ISE, Freiburg",Gasnetz -H2 pipeline,FOM,3.0,%/year,TODO, from old pypsa cost assumptions -H2 pipeline,investment,267.0,EUR/MW/km,Welder et al https://doi.org/10.1016/j.ijhydene.2018.12.156, from old pypsa cost assumptions -H2 pipeline,lifetime,40.0,years,TODO, from old pypsa cost assumptions -HVAC overhead,FOM,2.0,%/year,Hagspiel, from old pypsa cost assumptions -HVAC overhead,investment,400.0,EUR/MW/km,Hagspiel, from old pypsa cost assumptions -HVAC overhead,lifetime,40.0,years,Hagspiel, from old pypsa cost assumptions -HVDC inverter pair,FOM,2.0,%/year,Hagspiel, from old pypsa cost assumptions -HVDC inverter pair,investment,150000.0,EUR/MW,Hagspiel, from old pypsa cost assumptions -HVDC inverter pair,lifetime,40.0,years,Hagspiel, from old pypsa cost assumptions -HVDC overhead,FOM,2.0,%/year,Hagspiel, from old pypsa cost assumptions -HVDC overhead,investment,400.0,EUR/MW/km,Hagspiel, from old pypsa cost assumptions -HVDC overhead,lifetime,40.0,years,Hagspiel, from old pypsa cost assumptions -HVDC submarine,FOM,2.0,%/year,Hagspiel, from old pypsa cost assumptions -HVDC submarine,investment,2000.0,EUR/MW/km,Own analysis of European submarine HVDC projects since 2000, from old pypsa cost assumptions -HVDC submarine,lifetime,40.0,years,Hagspiel, from old pypsa cost assumptions -OCGT,FOM,1.78,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",52 OCGT - Natural gas: Fixed O&M -OCGT,VOM,4.5,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",52 OCGT - Natural gas: Variable O&M -OCGT,efficiency,0.41,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","52 OCGT - Natural gas: Electricity efficiency, annual average" -OCGT,investment,435.24,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",52 OCGT - Natural gas: Specific investment -OCGT,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",52 OCGT - Natural gas: Technical lifetime -PHS,FOM,1.0,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -PHS,efficiency,0.75,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -PHS,investment,2208.16,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -PHS,lifetime,80.0,years,IEA2010, from old pypsa cost assumptions -SMR,FOM,5.4,%/year,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030, from old pypsa cost assumptions -SMR,efficiency,0.74,per unit,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030, from old pypsa cost assumptions -SMR,investment,540.56,EUR/kWCH4,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030; GBP 466 exchange 1.16, from old pypsa cost assumptions -SMR,lifetime,25.0,years,TODO, from old pypsa cost assumptions -SMR CCS,FOM,5.4,%/year,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030, from old pypsa cost assumptions -SMR CCS,efficiency,0.67,per unit,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030; CCS uses 10% of gas, from old pypsa cost assumptions -SMR CCS,investment,1032.0,EUR/kWCH4,https://www.gov.uk/government/publications/hydrogen-supply-chain-evidence-base; slide 42 assumption for 2030; GBP 466 exchange 1.16; CCS costed at 300 EUR/tCO2/a, from old pypsa cost assumptions -SMR CCS,lifetime,25.0,years,TODO, from old pypsa cost assumptions -battery inverter,FOM,0.34,%/year,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Fixed O&M -battery inverter,efficiency,0.96,per unit,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Round trip efficiency DC -battery inverter,investment,160.0,EUR/kW,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Output capacity expansion cost investment -battery inverter,lifetime,25.0,years,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Technical lifetime -battery storage,investment,142.0,EUR/kWh,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Energy storage expansion cost investment -battery storage,lifetime,25.0,years,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: Technical lifetime -biogas,fuel,59.0,EUR/MWhth,JRC and Zappa, from old pypsa cost assumptions -biogas upgrading,FOM,2.49,%/year,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx","82 Biogas, upgrading: Fixed O&M " -biogas upgrading,VOM,3.18,EUR/MWh input,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx","82 Biogas, upgrading: Variable O&M" -biogas upgrading,investment,381.0,EUR/kW input,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx","82 Biogas, upgrading: investment (upgrading, methane redution and grid injection)" -biogas upgrading,lifetime,15.0,years,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx","82 Biogas, upgrading: Technical lifetime" -biomass,FOM,4.53,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -biomass,efficiency,0.47,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -biomass,fuel,7.0,EUR/MWhth,IEA2011b, from old pypsa cost assumptions -biomass,investment,2209.0,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -biomass,lifetime,30.0,years,ECF2010 in DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -biomass CHP,FOM,3.58,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Fixed O&M" -biomass CHP,VOM,2.1,EUR/MWh_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Variable O&M " -biomass CHP,c_b,0.46,40°C/80°C,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Cb coefficient" -biomass CHP,c_v,1.0,40°C/80°C,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Cv coefficient" -biomass CHP,efficiency,0.3,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Electricity efficiency, net, annual average" -biomass CHP,efficiency-heat,0.71,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Heat efficiency, net, annual average" -biomass CHP,investment,3210.28,EUR/kW_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Nominal investment " -biomass CHP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Technical lifetime" -biomass EOP,FOM,3.58,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Fixed O&M" -biomass EOP,VOM,2.1,EUR/MWh_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Variable O&M " -biomass EOP,c_b,0.46,40°C/80°C,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Cb coefficient" -biomass EOP,c_v,1.0,40°C/80°C,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Cv coefficient" -biomass EOP,efficiency,0.3,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Electricity efficiency, net, annual average" -biomass EOP,efficiency-heat,0.71,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Heat efficiency, net, annual average" -biomass EOP,investment,3210.28,EUR/kW_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Nominal investment " -biomass EOP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw, Large, 40 degree: Technical lifetime" -biomass HOP,FOM,5.75,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw HOP: Fixed O&M, heat output" -biomass HOP,VOM,2.78,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",09c Straw HOP: Variable O&M heat output -biomass HOP,efficiency,1.03,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09c Straw HOP: Total efficiency , net, annual average" -biomass HOP,investment,832.63,EUR/kW_th - heat output,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",09c Straw HOP: Nominal investment -biomass HOP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",09c Straw HOP: Technical lifetime -central air-sourced heat pump,FOM,0.23,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Comp. hp, airsource 3 MW: Fixed O&M" -central air-sourced heat pump,VOM,2.51,EUR/MWh_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Comp. hp, airsource 3 MW: Variable O&M" -central air-sourced heat pump,efficiency,3.6,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Comp. hp, airsource 3 MW: Total efficiency , net, annual average" -central air-sourced heat pump,investment,856.25,EUR/kW_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Comp. hp, airsource 3 MW: Specific investment" -central air-sourced heat pump,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Comp. hp, airsource 3 MW: Technical lifetime" -central coal CHP,FOM,1.63,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Fixed O&M -central coal CHP,VOM,2.84,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Variable O&M -central coal CHP,c_b,1.01,50oC/100oC,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Cb coefficient -central coal CHP,c_v,0.15,50oC/100oC,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Cv coefficient -central coal CHP,efficiency,0.52,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","01 Coal CHP: Electricity efficiency, condensation mode, net" -central coal CHP,investment,1860.47,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Nominal investment -central coal CHP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",01 Coal CHP: Technical lifetime -central gas CHP,FOM,3.32,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Fixed O&M" -central gas CHP,VOM,4.2,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Variable O&M" -central gas CHP,c_b,0.7,per unit,DEA (backpressure ratio), from old pypsa cost assumptions -central gas CHP,c_v,0.17,per unit,DEA (loss of fuel for additional heat), from old pypsa cost assumptions -central gas CHP,efficiency,0.41,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Electricity efficiency, annual average" -central gas CHP,investment,560.0,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Nominal investment" -central gas CHP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Technical lifetime" -central gas CHP,p_nom_ratio,1.0,per unit,, from old pypsa cost assumptions -central gas CHP CCS,FOM,3.32,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Fixed O&M" -central gas CHP CCS,VOM,4.2,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Variable O&M" -central gas CHP CCS,c_b,0.7,per unit,DEA (backpressure ratio), from old pypsa cost assumptions -central gas CHP CCS,c_v,0.17,per unit,DEA (loss of fuel for additional heat), from old pypsa cost assumptions -central gas CHP CCS,efficiency,0.37,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Electricity efficiency, annual average" -central gas CHP CCS,investment,1160.0,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx , DIW (CCS)","04 Gas turb. simple cycle, L: Nominal investment" -central gas CHP CCS,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","04 Gas turb. simple cycle, L: Technical lifetime" -central gas CHP CCS,p_nom_ratio,1.0,per unit,, from old pypsa cost assumptions -central gas boiler,FOM,3.8,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",44 Natural Gas DH Only: Fixed O&M -central gas boiler,VOM,1.0,EUR/MWh_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",44 Natural Gas DH Only: Variable O&M -central gas boiler,efficiency,1.04,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","44 Natural Gas DH Only: Total efficiency , net, annual average" -central gas boiler,investment,50.0,EUR/kW_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",44 Natural Gas DH Only: Nominal investment -central gas boiler,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",44 Natural Gas DH Only: Technical lifetime -central ground-sourced heat pump,FOM,0.39,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Absorption heat pump, DH: Fixed O&M" -central ground-sourced heat pump,VOM,1.25,EUR/MWh_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Absorption heat pump, DH: Variable O&M" -central ground-sourced heat pump,efficiency,1.73,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Absorption heat pump, DH: Total efficiency , net, annual average" -central ground-sourced heat pump,investment,507.6,EUR/kW_th excluding drive energy,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Absorption heat pump, DH: Nominal investment" -central ground-sourced heat pump,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","40 Absorption heat pump, DH: Technical lifetime" -central resistive heater,FOM,1.7,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",41 Electric Boilers: Fixed O&M -central resistive heater,VOM,1.0,EUR/MWh_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",41 Electric Boilers: Variable O&M -central resistive heater,efficiency,0.99,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","41 Electric Boilers: Total efficiency , net, annual average" -central resistive heater,investment,60.0,EUR/kW_th,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",41 Electric Boilers: Nominal investment; 10/15 kV; >10 MW -central resistive heater,lifetime,20.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",41 Electric Boilers: Technical lifetime -central solar thermal,FOM,1.4,%/year,HP, from old pypsa cost assumptions -central solar thermal,investment,140000.0,EUR/1000m2,HP, from old pypsa cost assumptions -central solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions -central solid biomass CHP,FOM,4.1,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Fixed O&M" -central solid biomass CHP,VOM,1.85,EUR/MWh_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Variable O&M " -central solid biomass CHP,c_b,1.01,per unit,DEA for wood pellets CHP (backpressure ratio), from old pypsa cost assumptions -central solid biomass CHP,c_v,0.15,per unit,DEA for wood pellets CHP (loss of fuel for additional heat), from old pypsa cost assumptions -central solid biomass CHP,efficiency,0.29,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Electricity efficiency, net, annual average" -central solid biomass CHP,efficiency-heat,0.69,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Heat efficiency, net, annual average" -central solid biomass CHP,investment,2851.41,EUR/kW_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Nominal investment " -central solid biomass CHP,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Technical lifetime" -central solid biomass CHP,p_nom_ratio,1.0,per unit,, from old pypsa cost assumptions -central solid biomass CHP CCS,FOM,4.1,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Fixed O&M" -central solid biomass CHP CCS,VOM,1.85,EUR/MWh_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Variable O&M " -central solid biomass CHP CCS,c_b,1.01,per unit,DEA for wood pellets CHP (backpressure ratio), from old pypsa cost assumptions -central solid biomass CHP CCS,c_v,0.15,per unit,DEA for wood pellets CHP (loss of fuel for additional heat), from old pypsa cost assumptions -central solid biomass CHP CCS,efficiency,0.26,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Electricity efficiency, net, annual average" -central solid biomass CHP CCS,efficiency-heat,0.69,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Heat efficiency, net, annual average" -central solid biomass CHP CCS,investment,3451.41,EUR/kW_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx , DIW (CCS)","09b Wood Pellets, Medium: Nominal investment " -central solid biomass CHP CCS,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","09b Wood Pellets, Medium: Technical lifetime" -central solid biomass CHP CCS,p_nom_ratio,1.0,per unit,, from old pypsa cost assumptions -central water tank storage,FOM,0.55,%/year,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal: Fixed O&M -central water tank storage,investment,0.54,EUR/kWhCapacity,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal: Specific investment -central water tank storage,lifetime,25.0,years,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",140 PTES seasonal: Technical lifetime -coal,CO2 intensity,0.34,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018, -coal,FOM,1.6,%/year,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -coal,VOM,3.5,EUR/MWh_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -coal,efficiency,0.33,per unit,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -coal,fuel,8.15,EUR/MWh_th,BP 2019, -coal,investment,3845.51,EUR/kW_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -coal,lifetime,40.0,years,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -decentral CHP,FOM,3.0,%/year,HP, from old pypsa cost assumptions -decentral CHP,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral CHP,investment,1400.0,EUR/kWel,HP, from old pypsa cost assumptions -decentral CHP,lifetime,25.0,years,HP, from old pypsa cost assumptions -decentral air-sourced heat pump,FOM,3.0,%/year,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.3 Air to water existing: Fixed O&M -decentral air-sourced heat pump,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral air-sourced heat pump,efficiency,3.6,per unit,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx","207.3 Air to water existing: Heat efficiency, annual average, net, radiators, existing one family house" -decentral air-sourced heat pump,investment,850.0,EUR/kW_th,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.3 Air to water existing: Specific investment -decentral air-sourced heat pump,lifetime,18.0,years,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.3 Air to water existing: Technical lifetime -decentral gas boiler,FOM,6.69,%/year,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",202 Natural gas boiler: Fixed O&M -decentral gas boiler,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral gas boiler,efficiency,0.98,per unit,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx","202 Natural gas boiler: Total efficiency, annual average, net" -decentral gas boiler,investment,296.82,EUR/kW_th,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",202 Natural gas boiler: Specific investment -decentral gas boiler,lifetime,20.0,years,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",202 Natural gas boiler: Technical lifetime -decentral gas boiler connection,investment,185.51,EUR/kW_th,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",: Possible additional specific investment -decentral gas boiler connection,lifetime,50.0,years,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",: Technical lifetime -decentral ground-sourced heat pump,FOM,1.82,%/year,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.7 Ground source existing: Fixed O&M -decentral ground-sourced heat pump,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral ground-sourced heat pump,efficiency,3.9,per unit,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx","207.7 Ground source existing: Heat efficiency, annual average, net, radiators, existing one family house" -decentral ground-sourced heat pump,investment,1400.0,EUR/kW_th,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.7 Ground source existing: Specific investment -decentral ground-sourced heat pump,lifetime,20.0,years,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",207.7 Ground source existing: Technical lifetime -decentral oil boiler,FOM,2.0,%/year,Palzer thesis (https://energiesysteme-zukunft.de/fileadmin/user_upload/Publikationen/PDFs/ESYS_Materialien_Optimierungsmodell_REMod-D.pdf), from old pypsa cost assumptions -decentral oil boiler,efficiency,0.9,per unit,Palzer thesis (https://energiesysteme-zukunft.de/fileadmin/user_upload/Publikationen/PDFs/ESYS_Materialien_Optimierungsmodell_REMod-D.pdf), from old pypsa cost assumptions -decentral oil boiler,investment,156.01,EUR/kWth,Palzer thesis (https://energiesysteme-zukunft.de/fileadmin/user_upload/Publikationen/PDFs/ESYS_Materialien_Optimierungsmodell_REMod-D.pdf) (+eigene Berechnung), from old pypsa cost assumptions -decentral oil boiler,lifetime,20.0,years,Palzer thesis (https://energiesysteme-zukunft.de/fileadmin/user_upload/Publikationen/PDFs/ESYS_Materialien_Optimierungsmodell_REMod-D.pdf), from old pypsa cost assumptions -decentral resistive heater,FOM,2.0,%/year,Schaber thesis, from old pypsa cost assumptions -decentral resistive heater,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral resistive heater,efficiency,0.9,per unit,Schaber thesis, from old pypsa cost assumptions -decentral resistive heater,investment,100.0,EUR/kWhth,Schaber thesis, from old pypsa cost assumptions -decentral resistive heater,lifetime,20.0,years,Schaber thesis, from old pypsa cost assumptions -decentral solar thermal,FOM,1.3,%/year,HP, from old pypsa cost assumptions -decentral solar thermal,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral solar thermal,investment,270000.0,EUR/1000m2,HP, from old pypsa cost assumptions -decentral solar thermal,lifetime,20.0,years,HP, from old pypsa cost assumptions -decentral water tank storage,FOM,1.0,%/year,HP, from old pypsa cost assumptions -decentral water tank storage,discount rate,0.04,per unit,Palzer thesis, from old pypsa cost assumptions -decentral water tank storage,investment,18.38,EUR/kWh,IWES Interaktion, from old pypsa cost assumptions -decentral water tank storage,lifetime,20.0,years,HP, from old pypsa cost assumptions -electricity distribution grid,FOM,2.0,%/year,TODO, from old pypsa cost assumptions -electricity distribution grid,investment,500.0,EUR/kW,TODO, from old pypsa cost assumptions -electricity distribution grid,lifetime,40.0,years,TODO, from old pypsa cost assumptions -electricity grid connection,FOM,2.0,%/year,TODO, from old pypsa cost assumptions -electricity grid connection,investment,140.0,EUR/kW,DEA, from old pypsa cost assumptions -electricity grid connection,lifetime,40.0,years,TODO, from old pypsa cost assumptions -electrolysis,FOM,5.0,%/year,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx",88 Alkaline Electrolyser: Fixed O&M -electrolysis,efficiency,0.66,per unit,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx","88 Alkaline Electrolyser: A) Hydrogen output, at LHV" -electrolysis,investment,550.0,EUR/kW_e,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx",88 Alkaline Electrolyser: Specific investment -electrolysis,lifetime,25.0,years,"Danish Energy Agency, data_sheets_for_renewable_fuels_-_0003.xlsx",88 Alkaline Electrolyser: Technical lifetime -fuel cell,FOM,5.0,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",12 LT-PEMFC CHP: Fixed O&M -fuel cell,c_b,1.25,50oC/100oC,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",12 LT-PEMFC CHP: Cb coefficient -fuel cell,efficiency,0.5,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","12 LT-PEMFC CHP: Electricity efficiency, annual average" -fuel cell,investment,1100.0,EUR/kW_e,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",12 LT-PEMFC CHP: Nominal investment -fuel cell,lifetime,10.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",12 LT-PEMFC CHP: Technical lifetime -gas,CO2 intensity,0.2,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018, -gas,fuel,20.1,EUR/MWh_th,BP 2019, -gas storage,FOM,3.59,%,Danish Energy Agency,"150 Underground Storage of Gas, Operation and Maintenace, salt cavern (units converted)" -gas storage,investment,0.03,EUR/kWh,Danish Energy Agency,"150 Underground Storage of Gas, Establishment of one cavern (units converted)" -gas storage,lifetime,100.0,years,TODO no source,"estimation: most underground storage are already build, they do have a long lifetime" -gas storage charger,investment,14.34,EUR/kW,Danish Energy Agency,"150 Underground Storage of Gas, Process equipment (units converted)" -gas storage discharger,investment,4.78,EUR/kW,Danish Energy Agency,"150 Underground Storage of Gas, Process equipment (units converted)" -geothermal,CO2 intensity,0.03,tCO2/MWhth,https://www.eia.gov/environment/emissions/co2_vol_mass.php, from old pypsa cost assumptions -geothermal,FOM,2.36,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -geothermal,efficiency,0.24,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -geothermal,investment,3392.0,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -geothermal,lifetime,40.0,years,IEA2010, from old pypsa cost assumptions -helmeth,FOM,3.0,%/year,no source, from old pypsa cost assumptions -helmeth,efficiency,0.8,per unit,HELMETH press release, from old pypsa cost assumptions -helmeth,investment,2000.0,EUR/kW,no source, from old pypsa cost assumptions -helmeth,lifetime,25.0,years,no source, from old pypsa cost assumptions -hydro,FOM,1.0,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -hydro,efficiency,0.9,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -hydro,investment,2208.16,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -hydro,lifetime,80.0,years,IEA2010, from old pypsa cost assumptions -hydrogen storage tank,FOM,1.11,%/year,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151a Hydrogen Storage - Tanks: Fixed O&M -hydrogen storage tank,investment,44.91,EUR/kWh,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151a Hydrogen Storage - Tanks: Specific investment -hydrogen storage tank,lifetime,30.0,years,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151a Hydrogen Storage - Tanks: Technical lifetime -hydrogen storage underground,FOM,0.0,%/year,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151c Hydrogen Storage - Caverns: Fixed O&M -hydrogen storage underground,VOM,0.0,EUR/MWh,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151c Hydrogen Storage - Caverns: Variable O&M -hydrogen storage underground,investment,2.0,EUR/kWh,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151c Hydrogen Storage - Caverns: Specific investment -hydrogen storage underground,lifetime,100.0,years,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",151c Hydrogen Storage - Caverns: Technical lifetime -industry CCS,FOM,2.0,%/year,Saygin et al 2013 https://doi.org/10.1016/j.ijggc.2013.05.032, from old pypsa cost assumptions -industry CCS,efficiency,0.9,per unit,Saygin et al 2013 https://doi.org/10.1016/j.ijggc.2013.05.032, from old pypsa cost assumptions -industry CCS,investment,300.0,EUR/tCO2/a,Saygin et al 2013 https://doi.org/10.1016/j.ijggc.2013.05.032, from old pypsa cost assumptions -industry CCS,lifetime,25.0,years,Saygin et al 2013 https://doi.org/10.1016/j.ijggc.2013.05.032, from old pypsa cost assumptions -lignite,CO2 intensity,0.41,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018, -lignite,FOM,1.6,%/year,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -lignite,VOM,3.5,EUR/MWh_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -lignite,efficiency,0.33,per unit,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -lignite,fuel,2.9,EUR/MWh_th,DIW, -lignite,investment,3845.51,EUR/kW_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -lignite,lifetime,40.0,years,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -methanation,FOM,3.0,%/year,Schaber thesis, from old pypsa cost assumptions -methanation,efficiency,0.8,per unit,Palzer and Schaber thesis, from old pypsa cost assumptions -methanation,investment,1000.0,EUR/kWH2,Schaber thesis, from old pypsa cost assumptions -methanation,lifetime,25.0,years,Schaber thesis, from old pypsa cost assumptions -micro CHP,FOM,6.11,%/year,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",219 LT-PEMFC mCHP - natural gas: Fixed O&M -micro CHP,efficiency,0.35,per unit,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx","219 LT-PEMFC mCHP - natural gas: Electric efficiency, annual average, net" -micro CHP,efficiency-heat,0.61,per unit,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx","219 LT-PEMFC mCHP - natural gas: Heat efficiency, annual average, net" -micro CHP,investment,7410.27,EUR/kW_th,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",219 LT-PEMFC mCHP - natural gas: Specific investment -micro CHP,lifetime,20.0,years,"Danish Energy Agency, technologydatafor_heating_installations_marts_2018.xlsx",219 LT-PEMFC mCHP - natural gas: Technical lifetime -nuclear,FOM,1.4,%/year,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -nuclear,VOM,3.5,EUR/MWh_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -nuclear,efficiency,0.33,per unit,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -nuclear,fuel,2.6,EUR/MWh_th,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -nuclear,investment,7940.45,EUR/kW_e,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -nuclear,lifetime,40.0,years,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -offwind,FOM,2.29,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",21 Offshore turbines: Fixed O&M -offwind,VOM,2.67,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",21 Offshore turbines: Variable O&M -offwind,investment,1573.21,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",21 Offshore turbines: Nominal investment grid connection costs substracted from investment costs -offwind,lifetime,30.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",21 Offshore turbines: Technical lifetime -offwind-ac-connection-submarine,investment,2685.0,EUR/MW/km,DEA https://ens.dk/en/our-services/projections-and-models/technology-data, from old pypsa cost assumptions -offwind-ac-connection-underground,investment,1342.0,EUR/MW/km,DEA https://ens.dk/en/our-services/projections-and-models/technology-data, from old pypsa cost assumptions -offwind-ac-station,investment,250.0,EUR/kWel,DEA https://ens.dk/en/our-services/projections-and-models/technology-data, from old pypsa cost assumptions -offwind-dc-connection-submarine,investment,2000.0,EUR/MW/km,DTU report based on Fig 34 of https://ec.europa.eu/energy/sites/ener/files/documents/2014_nsog_report.pdf, from old pypsa cost assumptions -offwind-dc-connection-underground,investment,1000.0,EUR/MW/km,Haertel 2017; average + 13% learning reduction, from old pypsa cost assumptions -offwind-dc-station,investment,400.0,EUR/kWel,Haertel 2017; assuming one onshore and one offshore node + 13% learning reduction, from old pypsa cost assumptions -oil,CO2 intensity,0.27,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018, -oil,FOM,2.46,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",50 Diesel engine farm: Fixed O&M -oil,VOM,6.0,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",50 Diesel engine farm: Variable O&M -oil,efficiency,0.35,per unit,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","50 Diesel engine farm: Electricity efficiency, annual average" -oil,fuel,50.0,EUR/MWhth,IEA WEM2017 97USD/boe = http://www.iea.org/media/weowebsite/2017/WEM_Documentation_WEO2017.pdf, from old pypsa cost assumptions -oil,investment,343.0,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",50 Diesel engine farm: Specific investment -oil,lifetime,25.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",50 Diesel engine farm: Technical lifetime -onwind,FOM,1.22,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",20 Onshore turbines: Fixed O&M -onwind,VOM,1.35,EUR/MWh,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",20 Onshore turbines: Variable O&M -onwind,investment,1035.56,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",20 Onshore turbines: Nominal investment -onwind,lifetime,30.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",20 Onshore turbines: Technical lifetime -ror,FOM,2.0,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -ror,efficiency,0.9,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -ror,investment,3312.24,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions -ror,lifetime,80.0,years,IEA2010, from old pypsa cost assumptions -solar,FOM,1.46,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",22 Photovoltaics Medium: Fixed O&M -solar,VOM,0.01,EUR/MWhel,RES costs made up to fix curtailment order, from old pypsa cost assumptions -solar,investment,631.69,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx","22 Photovoltaics Medium: Specific investment, total system" -solar,lifetime,35.0,years,"Assuming 50% rooftop, 50% utility",22 Photovoltaics Medium: Technical lifetime of total system -solar-rooftop,FOM,1.24,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",22 Photovoltaics Small: Fixed O&M -solar-rooftop,discount rate,0.04,per unit,standard for decentral, from old pypsa cost assumptions -solar-rooftop,investment,784.31,EUR/kW,European PV Technology and Innovation Platform,"22 Photovoltaics Small: Specific investment, total system" -solar-rooftop,lifetime,30.0,years,European PV Technology and Innovation Platform,22 Photovoltaics Small: Technical lifetime of total system -solar-utility,FOM,1.93,%/year,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",22 Photovoltaics Large: Fixed O&M -solar-utility,investment,376.29,EUR/kW,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",22 Photovoltaics Large: Nominal investment -solar-utility,lifetime,40.0,years,"Danish Energy Agency, technology_data_for_el_and_dh_-_0009.xlsx",22 Photovoltaics Large: Technical lifetime -solid biomass,CO2 intensity,0.3,tCO2/MWh_th,TODO, -solid biomass,fuel,25.2,EUR/MWh_th,Is a 100% renewable European power system feasible by 2050?, -uranium,fuel,2.6,EUR/MWh_th,Lazard s Levelized Cost of Energy Analysis - Version 13.0, -water tank charger,efficiency,0.84,per unit,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: efficiency from sqr(Round trip efficiency) -water tank discharger,efficiency,0.84,per unit,"Danish Energy Agency, technology_data_catalogue_for_energy_storage.xlsx",: efficiency from sqr(Round trip efficiency) diff --git a/test/config.test1.yaml b/test/config.test1.yaml index 572776c3..536a3d50 100755 --- a/test/config.test1.yaml +++ b/test/config.test1.yaml @@ -27,6 +27,7 @@ snapshots: enable: prepare_links_p_nom: false retrieve_databundle: true + retrieve_cost_data: true build_cutout: false retrieve_cutout: true build_natura_raster: false