Update iron-air assumptions to be more conservative (#179)

* Improve source filename consistency

* Fix minor formatting

* Add release note

* code: apply pre-commit changes

* Update iron-air assumptions to be more conservative

* Add release note

* Update outputs using latest data from master

* Add purge rule

* Add all rule

* Add release note

* Update release_notes.rst

* Remove European premium for US cost assumptions

* code: apply pre-commit changes

* Update release_notes.rst

* Fix test for manual_input_usa

---------

Co-authored-by: Fabrizio Finozzi <[email protected]>

Author: tgilon

docs/release_notes.rst

@@ -24,6 +24,8 @@ Upcoming Release
 
 * Align `snakemake` version and the related `mock_snakemake` to PyPSA-Eur (https://github.com/PyPSA/technology-data/pull/177)
 
+* Improve assumptions for iron-air batteries (https://github.com/PyPSA/technology-data/pull/179)
+
 * Improve filename consistency in the sources (https://github.com/PyPSA/technology-data/pull/178)
 
 * Include further unit tests for compile_cost_assumptions_usa.py (https://github.com/PyPSA/technology-data/pull/182)

inputs/US/manual_input_usa.csv

@@ -127,4 +127,8 @@ Solid biomass steam reforming,FOM,2020,0.05,%/year,2010,"JRC, 01_JRC-EU-TIMES Fu
 Natural gas steam reforming CC,FOM,2030,0.05,%/year,2010,"JRC, 01_JRC-EU-TIMES Full model ",
 Natural gas steam reforming CC,FOM,2050,0.05,%/year,2010,"JRC, 01_JRC-EU-TIMES Full model ",
 Coal gasification CC,FOM,2030,0.07,%/year,2010,"JRC, 01_JRC-EU-TIMES Full model ",
-Biomass gasification CC,FOM,2030,0.02,%/year,2010,"JRC, 01_JRC-EU-TIMES Full model ",
+Biomass gasification CC,FOM,2030,0.02,%/year,2010,"JRC, 01_JRC-EU-TIMES Full model ",
+iron-air battery,investment,2025,28.62,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2030,19.05,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2035,14.40,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2040,12.69,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",

inputs/manual_input.csv

@@ -387,20 +387,20 @@ allam,investment,2030,1500,EUR/kW,2020,Own assumption. TODO: Find better technol
 allam,VOM,2030,2,EUR/MWh,2020,Own assumption. TODO: Find better technology data and cost assumptions,
 allam,efficiency,2030,0.6,p.u.,2020,Own assumption. TODO: Find better technology data and cost assumptions,
 allam,lifetime,2030,30,years,2020,Own assumption. TODO: Find better technology data and cost assumptions,
-iron-air battery,FOM,2025,1.02185373078457,%/year,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,FOM,2030,1,%/year,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,FOM,2035,1.10628646943421,%/year,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,FOM,2040,1.1807773334732,%/year,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,investment,2025,23.45,EUR/kWh,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,investment,2030,15.61,EUR/kWh,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,investment,2035,11.79,EUR/kWh,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,investment,2040,10.4,EUR/kWh,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery charge,efficiency,2025,0.7,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery charge,efficiency,2030,0.71,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery charge,efficiency,2035,0.73,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery charge,efficiency,2040,0.74,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery discharge,efficiency,2025,0.59,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery discharge,efficiency,2030,0.6,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery discharge,efficiency,2035,0.62,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery discharge,efficiency,2040,0.63,per unit,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
-iron-air battery,lifetime,2030,17.5,years,2020,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,FOM,2025,1.02185373078457,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,FOM,2030,1,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,FOM,2035,1.10628646943421,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,FOM,2040,1.1807773334732,%/year,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2025,30.05,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2030,20.00,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2035,15.11,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,investment,2040,13.33,EUR/kWh,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery charge,efficiency,2025,0.70,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery charge,efficiency,2030,0.71,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery charge,efficiency,2035,0.73,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery charge,efficiency,2040,0.74,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery discharge,efficiency,2025,0.59,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery discharge,efficiency,2030,0.60,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery discharge,efficiency,2035,0.62,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery discharge,efficiency,2040,0.63,per unit,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",
+iron-air battery,lifetime,2030,17.5,years,2023,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",

outputs/US/costs_2020.csv

@@ -3948,11 +3948,11 @@ industrial heat pump medium temperature,efficiency,2.55,per unit,"Danish Energy
 industrial heat pump medium temperature,investment,877.2984,EUR/kW,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Nominal investment,2019.0,,
 industrial heat pump medium temperature,lifetime,20.0,years,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Technical lifetime,2019.0,,
 iron ore DRI-ready,commodity,97.73,EUR/t,"Model assumptions from MPP Steel Transition Tool: https://missionpossiblepartnership.org/action-sectors/steel/, accessed: 2022-12-03.","DRI ready assumes 65% iron content, requiring no additional benefication.",2020.0,,
-iron-air battery,FOM,1.0219,%/year,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,investment,23.45,EUR/kWh,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,lifetime,17.5,years,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery charge,efficiency,0.7,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery discharge,efficiency,0.59,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
+iron-air battery,FOM,1.0219,%/year,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,investment,23.9381,EUR/kWh,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,lifetime,17.5,years,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery charge,efficiency,0.7,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery discharge,efficiency,0.59,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
 lignite,CO2 intensity,0.4069,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018,,,,
 lignite,FOM,1.31,%/year,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (39.5+91.25) USD/kW_e/a /2 / (1.09 USD/EUR) / investment cost * 100. Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,
 lignite,VOM,3.2612,EUR/MWh_e,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (3+5.5)USD/MWh_e/2 / (1.09 USD/EUR). Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,

outputs/US/costs_2025.csv

@@ -4034,11 +4034,11 @@ industrial heat pump medium temperature,efficiency,2.625,per unit,"Danish Energy
 industrial heat pump medium temperature,investment,830.775,EUR/kW,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Nominal investment,2019.0,,
 industrial heat pump medium temperature,lifetime,20.0,years,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Technical lifetime,2019.0,,
 iron ore DRI-ready,commodity,97.73,EUR/t,"Model assumptions from MPP Steel Transition Tool: https://missionpossiblepartnership.org/action-sectors/steel/, accessed: 2022-12-03.","DRI ready assumes 65% iron content, requiring no additional benefication.",2020.0,,
-iron-air battery,FOM,1.0219,%/year,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,investment,23.45,EUR/kWh,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,lifetime,17.5,years,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery charge,efficiency,0.7,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery discharge,efficiency,0.59,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
+iron-air battery,FOM,1.0219,%/year,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,investment,23.9381,EUR/kWh,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,lifetime,17.5,years,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery charge,efficiency,0.7,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery discharge,efficiency,0.59,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
 lignite,CO2 intensity,0.4069,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018,,,,
 lignite,FOM,1.31,%/year,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (39.5+91.25) USD/kW_e/a /2 / (1.09 USD/EUR) / investment cost * 100. Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,
 lignite,VOM,3.2612,EUR/MWh_e,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (3+5.5)USD/MWh_e/2 / (1.09 USD/EUR). Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,

outputs/US/costs_2030.csv

@@ -4190,11 +4190,11 @@ industrial heat pump medium temperature,efficiency,2.7,per unit,"Danish Energy A
 industrial heat pump medium temperature,investment,784.2516,EUR/kW,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Nominal investment,2019.0,,
 industrial heat pump medium temperature,lifetime,20.0,years,"Danish Energy Agency, inputs/technology_data_for_industrial_process_heat.xlsx",302.a High temp. hp Up to 125 C:  Technical lifetime,2019.0,,
 iron ore DRI-ready,commodity,97.73,EUR/t,"Model assumptions from MPP Steel Transition Tool: https://missionpossiblepartnership.org/action-sectors/steel/, accessed: 2022-12-03.","DRI ready assumes 65% iron content, requiring no additional benefication.",2020.0,,
-iron-air battery,FOM,1.0,%/year,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,investment,15.61,EUR/kWh,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery,lifetime,17.5,years,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery charge,efficiency,0.71,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
-iron-air battery discharge,efficiency,0.6,per unit,"Form Energy, FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2020.0,,
+iron-air battery,FOM,1.0,%/year,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,investment,15.9337,EUR/kWh,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery,lifetime,17.5,years,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery charge,efficiency,0.71,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
+iron-air battery discharge,efficiency,0.6,per unit,"Form Energy, docu/FormEnergy_Europe_modeling_recommendations_2023.03.pdf, p4",,2023.0,,
 lignite,CO2 intensity,0.4069,tCO2/MWh_th,Entwicklung der spezifischen Kohlendioxid-Emissionen des deutschen Strommix in den Jahren 1990 - 2018,,,,
 lignite,FOM,1.31,%/year,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (39.5+91.25) USD/kW_e/a /2 / (1.09 USD/EUR) / investment cost * 100. Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,
 lignite,VOM,3.2612,EUR/MWh_e,"Lazard's levelized cost of energy analysis - version 16.0 (2023): https://www.lazard.com/media/typdgxmm/lazards-lcoeplus-april-2023.pdf , pg. 49 (Levelized Cost of Energy - Key Assumptions), accessed: 2023-12-14.","Calculated based on average of listed range, i.e. (3+5.5)USD/MWh_e/2 / (1.09 USD/EUR). Note: Assume same costs as for hard coal, as cost structure is apparently comparable, see https://diglib.tugraz.at/download.php?id=6093e88b63f93&location=browse and https://iea.blob.core.windows.net/assets/ae17da3d-e8a5-4163-a3ec-2e6fb0b5677d/Projected-Costs-of-Generating-Electricity-2020.pdf . ",2023.0,,