Merge branch 'master' into add_more_industry_data

Author: danielelerede-oet

docs/release_notes.rst

@@ -62,6 +62,8 @@ Upcoming Release
 
 * Add BF-BOF and separate natural gas- and hydrogen-based steelmaking (The technology previously called `direct iron reduction furnace` becomes `hydrogen direct iron reduction`, and `natural gas direct iron reduction furnace` represent the conventional direct iron reduction process), cement and ethanol production technologies (https://github.com/PyPSA/technology-data/pull/211)
 
+* Add industrial plant CCS retrofit options (https://github.com/PyPSA/technology-data/pull/212)
+
 * Include further unit tests for compile_cost_assumptions.py (https://github.com/PyPSA/technology-data/pull/210)
 
 `v0.11.0 <https://github.com/PyPSA/technology-data/releases/tag/v0.11.0>`__ (24th January 2025)

inputs/manual_input.csv

@@ -463,3 +463,25 @@ ethanol from sugar crops,FOM,2030,19.51,%/year,2020,"JRC, 01_JRC-EU-TIMES Full m
 ethanol from sugar crops,VOM,2010,21.9,EUR/MWh_eth,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx` and `SubRES_10_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production
 ethanol from sugar crops,lifetime,2010,20,years,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx` and `SubRES_10_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )",Suited for Brazilian production
 ethanol from sugar crops,efficiency,2010,0.45,p.u.,2020,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx` and `SubRES_10_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH201, Ethanol production from sugar crops )","Suited for Brazilian production. Converted from 0.292 t_crop/t_eth, LHV_crop = 16.1 GJ/t, LHV_ethanol = 26.7 GJ/t"
+ethanol carbon capture retrofit,FOM,2030,7,%/year,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+ethanol carbon capture retrofit,capture_rate,2030,0.94,per unit,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",
+ethanol carbon capture retrofit,electricity-input,2030,0.12,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+ethanol carbon capture retrofit,investment,2030,922105,USD/(tCO2/h),2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 36 million USD, CO2 Volume captured 342000 t/year"
+ethanol carbon capture retrofit,lifetime,2030,20,years,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+ammonia carbon capture retrofit,FOM,2030,5,%/year,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+ammonia carbon capture retrofit,capture_rate,2030,0.99,per unit,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760)
+ammonia carbon capture retrofit,electricity-input,2030,0.1,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+ammonia carbon capture retrofit,investment,2030,923290,USD/(tCO2/h),2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 41 million USD, CO2 Volume captured 389000 t/year"
+ammonia carbon capture retrofit,lifetime,2030,20,years,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+cement carbon capture retrofit,FOM,2030,7,%/year,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+cement carbon capture retrofit,capture_rate,2030,0.9,per unit,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760)
+cement carbon capture retrofit,electricity-input,2030,0.16,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+cement carbon capture retrofit,gas-input,2030,0.76,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+cement carbon capture retrofit,investment,2030,2569739,USD/(tCO2/h),2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 247 million USD, CO2 Volume captured 842000  t/year"
+cement carbon capture retrofit,lifetime,2030,20,years,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+steel carbon capture retrofit,FOM,2030,5,%/year,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",
+steel carbon capture retrofit,capture_rate,2030,0.9,per unit,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760)
+steel carbon capture retrofit,electricity-input,2030,0.16,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+steel carbon capture retrofit,gas-input,2030,0.76,MWh/tCO2,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",
+steel carbon capture retrofit,investment,2030,3536679,USD/(tCO2/h),2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 1342 million USD, CO2 Volume captured 3324000 t/year"
+steel carbon capture retrofit,lifetime,2030,20,years,2019,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",

outputs/US/costs_2020.csv

@@ -3430,6 +3430,11 @@ allam,VOM,2.0,EUR/MWh,Own assumption. TODO: Find better technology data and cost
 allam,efficiency,0.6,p.u.,Own assumption. TODO: Find better technology data and cost assumptions,,2020.0,,
 allam,investment,1500.0,EUR/kW,Own assumption. TODO: Find better technology data and cost assumptions,,2020.0,,
 allam,lifetime,30.0,years,Own assumption. TODO: Find better technology data and cost assumptions,,2020.0,,
+ammonia carbon capture retrofit,FOM,5.0,%/year,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
+ammonia carbon capture retrofit,capture_rate,0.99,per unit,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760),2019.0,,
+ammonia carbon capture retrofit,electricity-input,0.1,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+ammonia carbon capture retrofit,investment,937191.0542,USD/(tCO2/h),"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 41 million USD, CO2 Volume captured 389000 t/year",2019.0,,
+ammonia carbon capture retrofit,lifetime,20.0,years,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
 battery inverter,FOM,0.2,%/year,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Fixed O&M,2020.0,,
 battery inverter,efficiency,0.95,per unit,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Round trip efficiency DC,2020.0,,
 battery inverter,investment,287.118,EUR/kW,"Danish Energy Agency, inputs/technology_data_catalogue_for_energy_storage.xlsx",:  Output capacity expansion cost investment,2020.0,,
@@ -3585,6 +3590,12 @@ cement capture,heat-input,0.833,MWh/tCO2,"Danish Energy Agency, inputs/technolog
 cement capture,heat-output,1.65,MWh/tCO2,"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
 cement capture,investment,3000000.0,EUR/(tCO2/h),"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
 cement capture,lifetime,25.0,years,"Danish Energy Agency, inputs/technology_data_for_carbon_capture_transport_storage.xlsx",401.c Post comb - Cement kiln,2020.0,,
+cement carbon capture retrofit,FOM,7.0,%/year,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
+cement carbon capture retrofit,capture_rate,0.9,per unit,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760),2019.0,,
+cement carbon capture retrofit,electricity-input,0.16,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+cement carbon capture retrofit,gas-input,0.76,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+cement carbon capture retrofit,investment,2608428.9904,USD/(tCO2/h),"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 247 million USD, CO2 Volume captured 842000  t/year",2019.0,,
+cement carbon capture retrofit,lifetime,20.0,years,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
 cement dry clinker,FOM,4.0,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx`, Sheet `IND` (ICMDRYPRD01, ICM.Dry Process Production.01)",,2020.0,,
 cement dry clinker,VOM,5.0,EUR/t_clinker,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx`, Sheet `IND` (ICMDRYPRD01, ICM.Dry Process Production.01)",,2020.0,,
 cement dry clinker,electricity-input,0.0694,MWh_el/t_clinker,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx`, Sheet `IND` (ICMDRYPRD01, ICM.Dry Process Production.01)",Original values 0.25 PJ per Mt clinker,2020.0,,
@@ -3899,6 +3910,11 @@ electrolysis small,efficiency,0.5773,per unit,"Danish Energy Agency, inputs/data
 electrolysis small,efficiency-heat,0.2762,per unit,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 10 MW:   - hereof recoverable for district heating,2020.0,,
 electrolysis small,investment,1900.0,EUR/kW_e,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 10 MW:  Specific investment,2020.0,,
 electrolysis small,lifetime,25.0,years,"Danish Energy Agency, inputs/data_sheets_for_renewable_fuels.xlsx",86 AEC 10 MW:  Technical lifetime of plant,2020.0,,
+ethanol carbon capture retrofit,FOM,7.0,%/year,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
+ethanol carbon capture retrofit,capture_rate,0.94,per unit,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",,2019.0,,
+ethanol carbon capture retrofit,electricity-input,0.12,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+ethanol carbon capture retrofit,investment,935988.2129,USD/(tCO2/h),"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 36 million USD, CO2 Volume captured 342000 t/year",2019.0,,
+ethanol carbon capture retrofit,lifetime,20.0,years,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
 ethanol from starch crop,FOM,13.8,%/year,"JRC, 01_JRC-EU-TIMES Full model, https://zenodo.org/records/3544900, file `SubRES_10_TECHS_CHP_SUP_IND.xlsx` and `SubRES_10_TECHS_CHP_SUP_IND_Trans.xlsx` (BCRPETH101, Ethanol production from starch crops )","Suited for USA and European production, original values 93.66192 FIXOM and 819.6322825 INVCOST~2020; and
 Suited for USA and European production, original values 93.66192 FIXOM and 677.0875 INVCOST~2020; and
 Suited for USA and European production, original values 93.66192 FIXOM and 614.7242 INVCOST~2020; and
@@ -4287,6 +4303,12 @@ solid biomass to hydrogen,FOM,4.25,%/year,"Zech et.al. DBFZ Report Nr. 19. Hy-NO
 solid biomass to hydrogen,capture rate,0.9,per unit,Assumption based on doi:10.1016/j.biombioe.2015.01.006,,,,
 solid biomass to hydrogen,efficiency,0.56,per unit,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,,,
 solid biomass to hydrogen,investment,4237.1194,EUR/kW_th,"Zech et.al. DBFZ Report Nr. 19. Hy-NOW - Evaluierung der Verfahren und Technologien für die Bereitstellung von Wasserstoff auf Basis von Biomasse, DBFZ, 2014",,2014.0,,
+steel carbon capture retrofit,FOM,5.0,%/year,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
+steel carbon capture retrofit,capture_rate,0.9,per unit,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-16, accessed 2025-04-16",CO2 volume captured / (Stream flowrate * Max. capacity utilization * CO2 in exhaust * 8760),2019.0,,
+steel carbon capture retrofit,electricity-input,0.16,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+steel carbon capture retrofit,gas-input,0.76,MWh/tCO2,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-20, accessed 2025-04-16",,2019.0,,
+steel carbon capture retrofit,investment,3589927.239,USD/(tCO2/h),"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-18, accessed 2025-04-16","Capital cost 1342 million USD, CO2 Volume captured 3324000 t/year",2019.0,,
+steel carbon capture retrofit,lifetime,20.0,years,"National Petroleum Council, Meeting the Dual Challenge - A Roadmap to At-Scale Deployment of Carbon Capture, Use, and Storage: https://dualchallenge.npc.org/files/CCUS-Chap_2-030521.pdf, p2-21, accessed 2025-04-16",,2019.0,,
 uranium,fuel,3.4122,EUR/MWh_th,"DIW (2013): Current and propsective costs of electricity generation until 2050, http://hdl.handle.net/10419/80348 , pg. 80 text below figure 10, accessed: 2023-12-14.",Based on IEA 2011 data.,2010.0,,
 waste CHP,FOM,2.4016,%/year,"Danish Energy Agency, inputs/technology_data_for_el_and_dh.xlsx","08 WtE CHP, Large, 50 degree:  Fixed O&M",2015.0,,
 waste CHP,VOM,28.8648,EUR/MWh_e,"Danish Energy Agency, inputs/technology_data_for_el_and_dh.xlsx","08 WtE CHP, Large, 50 degree:  Variable O&M ",2015.0,,