add electric compression losses for hydrogen and gas pipelines

docs/release_notes.rst

@@ -7,6 +7,8 @@ Upcoming Release
 
 * Add biomass-to-methanol route from DEA.
 
+* Add electric compression losses for hydrogen and gas pipelines from DEA.
+
 Technology-Data 0.6.2 (7 August 2023)
 =====================================
 

inputs/manual_input.csv

@@ -14,10 +14,16 @@ H2 (g) pipeline,investment,2020,250.04,EUR/MW/km,2020,European Hydrogen Backbone
 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/1000MWkm,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/1000MWkm,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/1000MWkm,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,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.
+H2 (g) pipeline repurposed,electricity-input,2020,0.021,MW_e/1000MWkm,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,electricity-input,2030,0.019,MW_e/1000MWkm,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,electricity-input,2050,0.017,MW_e/1000MWkm,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) fill compressor station,investment,2020,4478,EUR/MW_H2,2015,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 164, Figure 14 (Fill compressor).","Assumption for staging 35→140bar, 6000 MW_HHV single line pipeline. Considering HHV/LHV ration for H2."
 CO2 pipeline,investment,2020,2000,EUR/(tCO2/h)/km,2015,"Danish Energy Agency, Technology Data for Energy Transport (March 2021), Excel datasheet: 121 co2 pipeline.",Assuming the 120-500 t CO2/h range that is based on cost of a 12 inch onshore pipeline.
 CO2 pipeline,lifetime,2020,50,years,2015,"Danish Energy Agency, Technology Data for Energy Transport (March 2021), Excel datasheet: 121 co2 pipeline.",
@@ -29,6 +35,7 @@ H2 (g) fill compressor station,FOM,2020,1.7,%/year,2020,"Guidehouse 2020: Europe
 CH4 (g) pipeline,investment,2050,87.22,EUR/MW/km,2020,Guesstimate.,"Based on Arab Gas Pipeline: https://en.wikipedia.org/wiki/Arab_Gas_Pipeline: cost = 1.2e9 $-US (year = ?), capacity=10.3e9 m^3/a NG, l=1200km, NG-LHV=39MJ/m^3*90% (also Wikipedia estimate from here https://en.wikipedia.org/wiki/Heat_of_combustion). Presumed to include booster station cost."
 CH4 (g) pipeline,lifetime,2050,50,years,2020,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
 CH4 (g) pipeline,FOM,2050,1.5,%/year,2020,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
+CH4 (g) pipeline,electricity-input,2020,0.01,MW_e/1000MWkm,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."
 CH4 (g) fill compressor station,investment,2040,1654.96,EUR/MW_CH4,2020,"Guesstimate, based on H2 (g) pipeline and fill compressor station cost.","Assume same ratio as between H2 (g) pipeline and fill compressor station, i.e. 1:19 , due to a lack of reliable numbers."
 CH4 (g) fill compressor station,lifetime,2040,20,years,2020,Assume same as for H2 (g) fill compressor station.,-
 CH4 (g) fill compressor station,FOM,2040,1.7,%/year,2020,Assume same as for H2 (g) fill compressor station.,-
@@ -50,6 +57,9 @@ CH4 (g) submarine pipeline,lifetime,2015,30,years,2015,"d’Amore-Domenech et al
 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,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/1000MWkm,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/1000MWkm,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/1000MWkm,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).

outputs/costs_2020.csv

@@ -33,6 +33,7 @@ CH4 (g) fill compressor station,FOM,1.7,%/year,Assume same as for H2 (g) fill co
 CH4 (g) fill compressor station,investment,1498.95,EUR/MW_CH4,"Guesstimate, based on H2 (g) pipeline and fill compressor station cost.","Assume same ratio as between H2 (g) pipeline and fill compressor station, i.e. 1:19 , due to a lack of reliable numbers."
 CH4 (g) fill compressor station,lifetime,20.0,years,Assume same as for H2 (g) fill compressor station.,-
 CH4 (g) pipeline,FOM,1.5,%/year,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
+CH4 (g) pipeline,electricity-input,0.01,MW_e/1000MWkm,"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."
 CH4 (g) pipeline,investment,79.0,EUR/MW/km,Guesstimate.,"Based on Arab Gas Pipeline: https://en.wikipedia.org/wiki/Arab_Gas_Pipeline: cost = 1.2e9 $-US (year = ?), capacity=10.3e9 m^3/a NG, l=1200km, NG-LHV=39MJ/m^3*90% (also Wikipedia estimate from here https://en.wikipedia.org/wiki/Heat_of_combustion). Presumed to include booster station cost."
 CH4 (g) pipeline,lifetime,50.0,years,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
 CH4 (g) submarine pipeline,FOM,3.0,%/year,"d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material.",-
@@ -126,12 +127,15 @@ H2 (g) fill compressor station,FOM,1.7,%/year,"Guidehouse 2020: European Hydroge
 H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 164, Figure 14 (Fill compressor).","Assumption for staging 35→140bar, 6000 MW_HHV single line pipeline. Considering HHV/LHV ration for H2."
 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,0.02,MW_e/1000MWkm,"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,226.47,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,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,0.02,MW_e/1000MWkm,"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,105.88,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,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/1000MWkm,"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,329.37,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,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).

outputs/costs_2025.csv

@@ -33,6 +33,7 @@ CH4 (g) fill compressor station,FOM,1.7,%/year,Assume same as for H2 (g) fill co
 CH4 (g) fill compressor station,investment,1498.95,EUR/MW_CH4,"Guesstimate, based on H2 (g) pipeline and fill compressor station cost.","Assume same ratio as between H2 (g) pipeline and fill compressor station, i.e. 1:19 , due to a lack of reliable numbers."
 CH4 (g) fill compressor station,lifetime,20.0,years,Assume same as for H2 (g) fill compressor station.,-
 CH4 (g) pipeline,FOM,1.5,%/year,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
+CH4 (g) pipeline,electricity-input,0.01,MW_e/1000MWkm,"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."
 CH4 (g) pipeline,investment,79.0,EUR/MW/km,Guesstimate.,"Based on Arab Gas Pipeline: https://en.wikipedia.org/wiki/Arab_Gas_Pipeline: cost = 1.2e9 $-US (year = ?), capacity=10.3e9 m^3/a NG, l=1200km, NG-LHV=39MJ/m^3*90% (also Wikipedia estimate from here https://en.wikipedia.org/wiki/Heat_of_combustion). Presumed to include booster station cost."
 CH4 (g) pipeline,lifetime,50.0,years,Assume same as for H2 (g) pipeline in 2050 (CH4 pipeline as mature technology).,"Due to lack of numbers, use comparable H2 pipeline assumptions."
 CH4 (g) submarine pipeline,FOM,3.0,%/year,"d’Amore-Domenech et al (2021): 10.1016/j.apenergy.2021.116625 , supplementary material.",-
@@ -126,12 +127,15 @@ H2 (g) fill compressor station,FOM,1.7,%/year,"Guidehouse 2020: European Hydroge
 H2 (g) fill compressor station,investment,4478.0,EUR/MW_H2,"Danish Energy Agency, Technology Data for Energy Transport (2021), pg. 164, Figure 14 (Fill compressor).","Assumption for staging 35→140bar, 6000 MW_HHV single line pipeline. Considering HHV/LHV ration for H2."
 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,3.58,%/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/1000MWkm,"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,226.47,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,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,3.58,%/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/1000MWkm,"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,105.88,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,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/1000MWkm,"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,329.37,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,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).