change US Alkaline electrolyzer in Alkaline electrolyzer large size

docs/release_notes.rst

@@ -16,6 +16,11 @@ Upcoming Release
 ..   The features listed below are not released yet, but will be part of the next release! 
 ..   To use the features already you have to use the ``master`` branch.
 
+`v0.13.2 <https://github.com/PyPSA/technology-data/releases/tag/v0.13.2>`__ (13th June 2025)
+=======================================================================================
+
+* Refine size subdivision and add reference capacities for Alkaline and PEM elctrolyzers (https://github.com/PyPSA/technology-data/pull/228)
+
 `v0.13.1 <https://github.com/PyPSA/technology-data/releases/tag/v0.13.1>`__ (11th June 2025)
 =======================================================================================
 

outputs/costs_2020.csv

@@ -1,14 +1,19 @@
 technology,parameter,value,unit,source,further description,currency_year
-Alkaline electrolyzer large size,FOM,6.4,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer large size,VOM,0.6142,EUR/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer large size,electricity-input,1.5,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,
-Alkaline electrolyzer large size,investment,711.9042,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer large size,lifetime,40.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,
-Alkaline electrolyzer medium size,FOM,18.1,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer medium size,VOM,0.2389,EUR/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer medium size,electricity-input,1.633,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,
-Alkaline electrolyzer medium size,investment,566.0884,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-Alkaline electrolyzer medium size,lifetime,20.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,
+Alkaline electrolyzer large size,FOM,6.4,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 72 MW,2010.0
+Alkaline electrolyzer large size,VOM,0.6142,EUR/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 72 MW,2010.0
+Alkaline electrolyzer large size,electricity-input,1.5,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 72 MW,
+Alkaline electrolyzer large size,investment,711.9042,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 72 MW,2010.0
+Alkaline electrolyzer large size,lifetime,40.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC01, H2 Production-Alkaline Electrolyser, large size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 72 MW,
+Alkaline electrolyzer medium size,FOM,18.1,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 33 MW,2010.0
+Alkaline electrolyzer medium size,VOM,0.2389,EUR/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 33 MW,2010.0
+Alkaline electrolyzer medium size,electricity-input,1.633,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 33 MW,
+Alkaline electrolyzer medium size,investment,566.0884,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 33 MW,2010.0
+Alkaline electrolyzer medium size,lifetime,20.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2EC02, H2 Production-Alkaline Electrolyser, medium size, centralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 33 MW,
+Alkaline electrolyzer small size,FOM,18.1,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2ED01, H2 Production-Alkaline Electrolyser, small size, decentralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 0.6 MW,2010.0
+Alkaline electrolyzer small size,VOM,1.0919,EUR/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2ED01, H2 Production-Alkaline Electrolyser, small size, decentralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 0.6 MW,2010.0
+Alkaline electrolyzer small size,electricity-input,1.62,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2ED01, H2 Production-Alkaline Electrolyser, small size, decentralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 0.6 MW,
+Alkaline electrolyzer small size,investment,984.8823,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2ED01, H2 Production-Alkaline Electrolyser, small size, decentralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 0.6 MW,2010.0
+Alkaline electrolyzer small size,lifetime,20.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2ED01, H2 Production-Alkaline Electrolyser, small size, decentralized) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 0.6 MW,
 Ammonia cracker,FOM,4.3,%/year,"Ishimoto et al. (2020): 10.1016/j.ijhydene.2020.09.017 , table 7.","Estimated based on Labour cost rate, Maintenance cost rate, Insurance rate, Admin. cost rate and Chemical & other consumables cost rate.",2015.0
 Ammonia cracker,ammonia-input,1.46,MWh_NH3/MWh_H2,"ENGIE et al (2020): Ammonia to Green Hydrogen Feasibility Study (https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/880826/HS420_-_Ecuity_-_Ammonia_to_Green_Hydrogen.pdf), Fig. 10.",Assuming a integrated 200t/d cracking and purification facility. Electricity demand (316 MWh per 2186 MWh_LHV H2 output) is assumed to also be ammonia LHV input which seems a fair assumption as the facility has options for a higher degree of integration according to the report).,
 Ammonia cracker,investment,1123945.3807,EUR/MW_H2,"Ishimoto et al. (2020): 10.1016/j.ijhydene.2020.09.017 , table 6.",Calculated. For a small (200 t_NH3/d input) facility. Base cost for facility: 51 MEUR at capacity 20 000m^3_NH3/h = 339 t_NH3/d input. Cost scaling exponent 0.67. Ammonia density 0.7069 kg/m^3. Conversion efficiency of cracker: 0.685. Ammonia LHV: 5.167 MWh/t_NH3.; and Calculated. For a large (2500 t_NH3/d input) facility. Base cost for facility: 51 MEUR at capacity 20 000m^3_NH3/h = 339 t_NH3/d input. Cost scaling exponent 0.67. Ammonia density 0.7069 kg/m^3. Conversion efficiency of cracker: 0.685. Ammonia LHV: 5.167 MWh/t_NH3.,2015.0
@@ -505,10 +510,10 @@ OCGT,VOM,4.762,EUR/MWh,"Danish Energy Agency, inputs/technology_data_for_el_and_
 OCGT,efficiency,0.4,per unit,"Danish Energy Agency, inputs/technology_data_for_el_and_dh.xlsx","52 OCGT - Natural gas:  Electricity efficiency, annual average",2015.0
 OCGT,investment,480.3903,EUR/kW,"Danish Energy Agency, inputs/technology_data_for_el_and_dh.xlsx",52 OCGT - Natural gas:  Specific investment,2015.0
 OCGT,lifetime,25.0,years,"Danish Energy Agency, inputs/technology_data_for_el_and_dh.xlsx",52 OCGT - Natural gas:  Technical lifetime,2015.0
-PEM electrolyzer,FOM,3.0,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-PEM electrolyzer,electricity-input,1.43,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,
-PEM electrolyzer,investment,1364.8906,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",,2010.0
-PEM electrolyzer,lifetime,6.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`","Likely stack lifetime, rather than electrolyzer system lifetime",
+PEM electrolyzer small size,FOM,3.0,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 1 MW,2010.0
+PEM electrolyzer small size,electricity-input,1.43,MWh_el/MWh_H2,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 1 MW,
+PEM electrolyzer small size,investment,1364.8906,EUR/kW,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`",Reference capacity 1 MW,2010.0
+PEM electrolyzer small size,lifetime,6.0,years,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_15_TECHS_HYDROGEN.xlsx`  (SELCH2PEM01, H2 Production-Proton Exchange Membrane) and currency year from file `SubRES_15_TECHS_HYDROGEN.xlsx`, Sheet `INPUT-Data(HP)`","Likely stack lifetime, rather than electrolyzer system lifetime",
 PHS,FOM,1.0,%/year,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions,2015.0
 PHS,efficiency,0.75,per unit,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions,2015.0
 PHS,investment,2274.8177,EUR/kWel,DIW DataDoc http://hdl.handle.net/10419/80348, from old pypsa cost assumptions,2010.0