diff --git a/docs/release_notes.rst b/docs/release_notes.rst index 395a89a4..428e1ae3 100644 --- a/docs/release_notes.rst +++ b/docs/release_notes.rst @@ -17,6 +17,8 @@ Upcoming Release * Added FOM for enhanced geothermal systems. +* Updated hydrogen pipeline costs based on most recent `EHB report `_. + Technology-Data 0.6.2 (7 August 2023) ===================================== diff --git a/inputs/manual_input.csv b/inputs/manual_input.csv index e59273ee..8e38948e 100644 --- a/inputs/manual_input.csv +++ b/inputs/manual_input.csv @@ -10,14 +10,14 @@ methanation,FOM,2030,3,%/year,2017,"Agora Energiewende (2018): The Future Cost o methanation,investment,2050,500,EUR/kW_CH4,2017,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), table 6: “Reference scenario”.", methanation,lifetime,2050,20,years,2017,Guesstimate.,"Based on lifetime for methanolisation, Fischer-Tropsch plants." methanation,FOM,2050,3,%/year,2017,"Agora Energiewende (2018): The Future Cost of Electricity-Based Synthetic Fuels (https://www.agora-energiewende.de/en/publications/the-future-cost-of-electricity-based-synthetic-fuels-1/), section 6.2.3.1", -H2 (g) pipeline,investment,2020,250.04,EUR/MW/km,2020,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,2020,363.08,EUR/MW/km,2023,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,2020,50,years,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,FOM,2020,4,%/year,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,FOM,2050,1.5,%/year,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,2020,0.021,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." H2 (g) pipeline,electricity-input,2030,0.019,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." H2 (g) pipeline,electricity-input,2050,0.017,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,2020,116.9,EUR/MW/km,2020,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,2020,154.79,EUR/MW/km,2023,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,2020,50,years,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,FOM,2020,4,%/year,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,FOM,2050,1.5,%/year,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. @@ -55,12 +55,18 @@ CH4 (g) submarine pipeline,investment,2002,112.64,EUR/MW/km,2014,Kaiser (2017): CH4 (g) submarine pipeline,FOM,2015,3,%/year,2015,"d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material.",- CH4 (g) submarine pipeline,lifetime,2015,30,years,2015,"d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material.",- CH4 (g) submarine pipeline,electricity-input,2020,0.01,MW_e/1000km/MW_CH4,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: 112 6 gas Main distri line.","Assumption for gas pipeline >100MW, 0.1% per station and spacing of 100km yields 1%/1000km. Electric compression." -H2 (g) submarine pipeline,investment,2002,322.91,EUR/MW/km,2014,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,2020,545.325,EUR/MW/km,2023,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,FOM,2015,3,%/year,2015,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,lifetime,2015,30,years,2015,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,2020,0.021,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." H2 (g) submarine pipeline,electricity-input,2030,0.019,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." H2 (g) submarine pipeline,electricity-input,2050,0.017,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,2020,191.48,EUR/MW/km,2023,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,FOM,2015,3,%/year,2015,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,lifetime,2015,30,years,2015,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,2020,0.021,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,electricity-input,2030,0.019,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,electricity-input,2050,0.017,MW_e/1000km/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." H2 (l) storage tank,investment,2015,750.07500750075,EUR/MWh_H2,2015,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,2015,20,years,2015,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,FOM,2015,2,%/year,2015,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2020.csv b/outputs/costs_2020.csv index c7f1313d..73af6922 100644 --- a/outputs/costs_2020.csv +++ b/outputs/costs_2020.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,4.0,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.021,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,4.0,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.021,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.021,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.021,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2025.csv b/outputs/costs_2025.csv index 2f68f36d..33426247 100644 --- a/outputs/costs_2025.csv +++ b/outputs/costs_2025.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,3.5833,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.02,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,3.5833,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.02,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.02,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.02,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2030.csv b/outputs/costs_2030.csv index 3af91763..ba3bb820 100644 --- a/outputs/costs_2030.csv +++ b/outputs/costs_2030.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,3.1667,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.019,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,3.1667,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.019,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.019,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.019,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2035.csv b/outputs/costs_2035.csv index f88df0a8..a33a9148 100644 --- a/outputs/costs_2035.csv +++ b/outputs/costs_2035.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,2.75,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.0185,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,2.75,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.0185,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.0185,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.0185,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2040.csv b/outputs/costs_2040.csv index 078455b7..a84ec1c4 100644 --- a/outputs/costs_2040.csv +++ b/outputs/costs_2040.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,2.3333,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.018,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,2.3333,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.018,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.018,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.018,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2045.csv b/outputs/costs_2045.csv index e962990d..b6cb10ea 100644 --- a/outputs/costs_2045.csv +++ b/outputs/costs_2045.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,1.9167,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.0175,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,1.9167,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.0175,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.0175,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.0175,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). diff --git a/outputs/costs_2050.csv b/outputs/costs_2050.csv index d85dc3aa..f0f2d006 100644 --- a/outputs/costs_2050.csv +++ b/outputs/costs_2050.csv @@ -148,16 +148,20 @@ H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency H2 (g) fill compressor station,lifetime,20.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 168, Figure 24 (Fill compressor).", H2 (g) pipeline,FOM,1.5,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline,electricity-input,0.017,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline,investment,226.4689,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for-48 inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 2750 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline,investment,309.8853,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 4.4 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, > 6000 MW_HHV single line pipeline, incl. booster station investments. Considering LHV by scaling with LHV/HHV=0.8462623413." H2 (g) pipeline repurposed,FOM,1.5,%/year,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) pipeline repurposed,electricity-input,0.017,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) pipeline repurposed,investment,105.8799,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf.,"Assumption for 48-inch single line pipeline, incl. compressor investments, 16.9 GW peak capacity, 500 EUR/m, 434 MWe/1000 km for compressor, 3.4 MEUR/MWe for compressor, from European Hydrogen Backbone Report, Table 35." +H2 (g) pipeline repurposed,investment,132.1118,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 0.8 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) pipeline repurposed,lifetime,50.0,years,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.",Same as for new H2 (g) pipeline. H2 (g) submarine pipeline,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- H2 (g) submarine pipeline,electricity-input,0.017,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." -H2 (g) submarine pipeline,investment,329.3682,EUR/MW/km,"Assume similar cost as for CH4 (g) submarine pipeline but with the same factor as between onland CH4 (g) pipeline and H2 (g) pipeline (2.86). This estimate is comparable to a 36in diameter pipeline calaculated based on d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material (=251 EUR/MW/km).",- +H2 (g) submarine pipeline,investment,465.4296,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 7.48 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" H2 (g) submarine pipeline,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,FOM,3.0,%/year,Assume same as for CH4 (g) submarine pipeline.,- +H2 (g) submarine pipeline repurposed,electricity-input,0.017,MW_e/1000km/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), Excel datasheet: H2 140.","Assumption for a 140 bar, 5-20 GW pipeline. Electric compression." +H2 (g) submarine pipeline repurposed,investment,163.4263,EUR/MW/km,European Hydrogen Backbone Report (June 2021): https://gasforclimate2050.eu/wp-content/uploads/2021/06/EHB_Analysing-the-future-demand-supply-and-transport-of-hydrogen_June-2021.pdf Table 35. Implementation roadmap - Cross border projects and costs updates: https://ehb.eu/files/downloads/EHB-2023-20-Nov-FINAL-design.pdf Table 1,"Assumption for a 48 inch single line repurposed offshore pipeline, incl. compressor investments, 16.9 GW (LHV) peak capacity (source 2), 1.5 MEUR/km base cost with additional investment for compressors of capacity 434 MWe/1000 km (source 1), at 4 MEUR/MWe for compressor (source 2)" +H2 (g) submarine pipeline repurposed,lifetime,30.0,years,Assume same as for CH4 (g) submarine pipeline.,- H2 (l) storage tank,FOM,2.0,%/year,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg). H2 (l) storage tank,investment,750.075,EUR/MWh_H2,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.","Assuming currency year and technology year here (25 EUR/kg). Future target cost. Today’s cost potentially higher according to d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material pg. 16." H2 (l) storage tank,lifetime,20.0,years,"Reuß et al 2017, https://doi.org/10.1016/j.apenergy.2017.05.050 , Table 6.",Assuming currency year and technology year here (25 EUR/kg).