wiki.openmod-initiative.org - User contributions [en]

https://wiki.openmod-initiative.org/api.php?action=feedcontributions&feedformat=atom&user=Andres+Ramos wiki.openmod-initiative.org - User contributions [en] 2026-05-28T00:30:34Z User contributions MediaWiki 1.19.7 https://wiki.openmod-initiative.org/wiki/Learning_materials Learning materials 2025-01-03T10:32:07Z

<p>Andres Ramos: </p> <hr /> <div><br /> A list of openly-available, preferably openly-licensed learning materials. Please add information on the materials and licence.<br/><br /> <br /> *[[CapacityExpansion|CapacityExpansion]] by Patricia Levi & Lucas Elias Kuepper at Stanford University (2019, Homework in 'MS&E 394: Advanced Methods in Modeling for Climate and Energy Policy')<br /> *[https://data.ene.iiasa.ac.at/teaching/ Open Energy System Modeling]&nbsp;by Daniel Huppmann at IIASA for TU Wien (2020, 7 lectures with slides and videos, CC-BY 4.0)<br/><br /> *[https://ap-rg.eu/courses/operations-research-linma-2491/ Operations Research] by Anthony Papavasiliou (2020, 18 lectures with slides and videos, unknown licence)<br/><br /> *[https://ap-rg.eu/courses/quantitative-energy-economics-linma-2415/ Quantitative Energy Economics] by Anthony Papavasiliou (14 lectures with slides and videos, unknown licence)<br/><br /> *[https://www.youtube.com/watch?v=gB43TmcoUpA Convex Relaxations in Power System Optimization] by Carleton Coffrin and Line Roald at Los Alamos National Laboratory (2018, 8 lectures with videos, unknown licence)<br /> *[http://www.open-electricity-economics.org/book/text/OEE.html Open Electricity Economics] collaborative material edited by Lion Hirth and Tarun Khanna of the Hertie School of Governance (20xx, online textbook, under construction, intended CC licence)<br/><br /> *[https://online-learning.tudelft.nl/courses/energy-markets-of-today/ Energy Markets of Today]&nbsp;by Rudi Hakvoort and Laurens de Vries at TU Delft (2020, edX, material available on enrollment under CC-BY-NC-SA?)<br/><br /> *[https://ocw.tudelft.nl/courses/electricity-gas-market-design-policy-issues/ Electricity and Gas: Market Design and Policy Issues] coordinated by Laurens de Vries at TU Delft (2020, OpenCourseWare, slides and videos under CC-BY-NC-SA)<br/><br /> *[https://nworbmot.org/courses/esm-2020/ Energy System Modelling]&nbsp;by Tom Brown at KIT (2020, 15 lectures with slides, videos and Python coding examples, CC-BY 4.0)<br/><br /> *[https://zhangbaosen.github.io/teaching/EE553 Power System Economics]&nbsp;by&nbsp;Baosen Zhang at the University of Washington (2017, 11 lectures with slides and Julia coding examples, unknown licence)<br/><br /> *[https://energy-markets-school.dk/ DTU Summer Schools on Energy Markets and Optimization] by many different lecturers (2016-2019, many lecture slides online from previous schools)<br/><br /> *[https://labs.ece.uw.edu/real/videos.html Power System Economics] by Daniel Kirschen (2013, dozens of videos, unknown licence)<br /> *[http://switch-model.org/ Switch home page] by Switch authors (2015–18, open-access paper, tutorial and examples for Switch capacity planning model for high-renewable power systems)<br/><br /> *[https://www.youtube.com/channel/UCphLz_BXrOAInHozAlTsigA CO@Work Summer School] on Combinatorial Optimization by TU Berlin, Berlin Mathematical School and MATH+ (Youtube Channel, Sep. 2020, Details see [http://co-at-work.zib.de/ Website], unknown license)<br /> *[https://www.youtube.com/channel/UCkB5IF4MMU7lts-VEQzEFdw Renewables in Electricity Markets] by Pierre Pinson, DTU (youtube lectures)<br/><br /> *<span dir="auto" class="style-scope yt-formatted-string">[https://www.youtube.com/channel/UCjd5aXdCYzHC6GJvt4XONjQ/videos Advanced Optimization and Game Theory for Energy Systems] by Jalal Kazempour, DTU (youtube lectures)</span><br/><br /> *[https://github.com/east-winds/power-systems-optimization Power System Optimization] by Jesse Jenkins (Princeton) and Michael Davidson (UC San Diego) (2020, Julia/JuMP notebooks and examples, under construction, CC-BY 4.0)<br/><br /> *[http://www.osemosys.org/understanding-the-energy-system.html Understanding the Energy System] by OSeMOSYS Team (lecture slides, CC-BY 4.0)<br /> *[https://www.youtube.com/watch?v=U9Z4GE_l9mQ&list=PLY5NLA2BTufKU_wDSp-JzP6dhpzwsg1Xx OSeMOSYS Video Lectures] by OSeMOSYS Team (videos, CC-BY 4.0)<br /> *[https://users.ece.utexas.edu/~baldick/ Optimization of Engineering Systems] by Ross Baldick of University of Texas at Austin (2018, lecture slides, unknown licence)<br /> *[https://overbye.engr.tamu.edu/course-2/ecen615fa2018/ Methods of Electric Power System Analysis] by Tom Overbye of Texas A&M (2018, 27 lecture slides, PowerWorld examples, unknown licence)<br /> *[https://overbye.engr.tamu.edu/course-2/ecen460fa2017/ Power System Operation & Control] by Tom Overbye of Texas A&M (2017, 25 lecture slides, unknown licence)<br /> *[https://www.wecc.org/TrainingAndEducation/Pages/default.aspx WECC Training and Education] by Western Electricity Coordinating Council (diverse slides and videos, unknown licence)<br /> *[https://github.com/Irieo/EnergySystemsModelling-course Energy Systems Modelling] by Felix M<span style="font-size: 13.6px">üsgens and Iegor Riepin, BTU Germany (lecture & turorials slides, GAMS coding examples,&nbsp;<span style="background-color: rgb(255, 255, 255)">CC-BY-SA 4.0)</span></span><br /> *[https://cusp.umn.edu/courses Courses on Power Electronics, Electric Machines and Drives, Power systems & Renewable Energy] from the Consortium of Universities for Sustainable Power (lecture slides and videos, licence unknown)<br /> *[https://pserc.wisc.edu/webinars.aspx PSERC Webinars] (2011-2020, with slides and videos, licence unknown)<br /> *[https://mycourses.aalto.fi/course/view.php?id=3600&section=5 Energy and Environmental Economics] from Aalto University (2016, lecture slides, licence unknown)<br /> *[https://gradesfixer.com/blog/stem-grants-and-scholarship/ Energy Decisions, Markets, and Policies] by Richard Schmalensee at MIT (2012, 22 video lectures, licence unknown)<br /> *[https://www.youtube.com/playlist?list=PL30deB-5iwLKxkJyTvF4Mks9NG1wbATTz Energy Conversion and Renewable Energy] by Fraincois Marechal and Stefano Moret of EPFL (2018, 23 videos, licence unknown)<br /> *[http://summit.sfu.ca/item/20738 Introduction to Energy Modelling Course Pack] by Taco Niet and Kamaria Kuling at SFU (2020, online textbook, creative commons license)<br /> *[https://github.com/lhofbauer/outreach_course Energy modelling outreach course] by Leonhard Hofbauer at UCL (2022, handbook, spreadsheet models, CC-BY 4.0)<br /> *[https://fneum.github.io/data-science-for-esm/intro.html Data Science for Energy System Modelling] by Fabian Neumann at TU Berlin (2022/23, Jupyter Book)<br /> *[https://pascua.iit.comillas.edu/aramos/openmodels.htm Open Power Systems Planning Models. Decision Support Models in Power Systems] by Andres Ramos at Universidad Pontificia Comillas (slides and many open-source power system models)</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:23:44Z

<p>Andres Ramos: /* 24-Bus Reliability Test System */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> <br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]<br /> <br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:23:28Z

<p>Andres Ramos: /* Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> <br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]<br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> RTS24 [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:23:04Z

<p>Andres Ramos: /* Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> RTS-GMLC [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]<br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> RTS24 [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:21:43Z

<p>Andres Ramos: /* Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> RTS-GMLC [[https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]]<br /> <br/><br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> RTS24 [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:21:16Z

<p>Andres Ramos: /* 24-Bus Reliability Test System */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> RTS-GMLC [[https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]]<br /> <br /> <br/><br /> <br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> RTS24 [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:20:24Z

<p>Andres Ramos: /* Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> RTS-GMLC [[https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]]<br /> <br /> <br/><br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> [RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:19:46Z

<p>Andres Ramos: </p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br/><br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> [RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]<br /> <br /> <br/><br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> [RTS24 https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:17:46Z

<p>Andres Ramos: /* Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) */</p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> [RTS-GMLC https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC [1]]<br /> <br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Open_model_implementations Open model implementations 2025-01-03T10:14:36Z

<p>Andres Ramos: </p> <hr /> <div><br /> = Introduction<br/> =<br /> <br /> This page lists open implementations of [[Open Models|open modelling frameworks]] for specific regions that include all power/energy system data so that the regions can be modelled.<br /> <br /> = Global =<br /> <br /> == PLEXOS-World ==<br /> <br /> [https://dataverse.harvard.edu/dataset.xhtml?persistentId=doi:10.7910/DVN/CBYXBY PLEXOS-World Harvard Dataverse page]<br/><br /> <br /> = Africa =<br /> <br /> == Africa-wide ==<br /> <br /> === CCG Starter Kits for African Countries ===<br /> <br /> [https://www.climatecompatiblegrowth.com/starter-kits/ links to datasets on Zenodo]<br /> <br /> === PyPSA meets Africa (initiative, no model yet) ===<br /> <br /> [https://max-parzen.github.io/Project_PyPSA_Africa.html PyPSA meets Africa] - initiative started in 2021, looking for volunteers, see [https://www.youtube.com/watch?v=E0V0T4U9nmQ launch video]<br /> <br /> == West African Power Pool (WAPP) Dispa-SET<br/> ==<br /> <br /> [https://zenodo.org/record/2620189#.YETmbtzTVO0 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South African Power Pool (SAPP) Dispa-SET<br/> ==<br /> <br /> [https://doi.org/10.5281/zenodo.4030905 Model inputs and outputs on Zenodo]<br/><br /> <br /> == South Africa ==<br /> <br /> === SA-Calliope ===<br /> <br /> [https://doi.org/10.1016/j.energy.2015.04.077 https://doi.org/10.1016/j.energy.2015.04.077]<br /> <br /> === PyPSA-ZA<br/> ===<br /> <br /> [https://github.com/PyPSA/pypsa-za https://github.com/PyPSA/pypsa-za]<br/><br /> <br /> == Kenya<br/> ==<br /> <br /> === Calliope-Kenya<br/> ===<br /> <br /> [https://github.com/SESAM-Polimi/Calliope-Kenya https://github.com/SESAM-Polimi/Calliope-Kenya]<br/><br /> <br /> <br/><br/><br /> <br /> = Asia =<br /> <br /> == China ==<br /> <br /> === China-Calliope ===<br /> <br /> in development, see [https://www.callio.pe/model-gallery/ https://www.callio.pe/model-gallery/]<br /> <br /> === PyPSA-China ===<br /> <br /> [https://arxiv.org/abs/1810.10347 https://arxiv.org/abs/1810.10347]<br /> <br /> === SWITCH-China ===<br /> <br /> developed at Tsingua University?<br /> <br /> <br/><br /> <br /> = Europe =<br /> <br /> == Europe-wide ==<br /> <br /> === Euro-Calliope ===<br /> <br /> [https://github.com/calliope-project/euro-calliope https://github.com/calliope-project/euro-calliope]<br /> <br /> === OSeMBE ===<br /> <br /> EU27+CH+NO+UK OSeMOSYS model, power sector only: [https://github.com/HauHe/OSeMBE https://github.com/HauHe/OSeMBE]<br /> <br /> === PyPSA-Eur and PyPSA-Eur-Sec ===<br /> <br /> PyPSA-Eur is electricity only: [https://github.com/PyPSA/pypsa-eur https://github.com/PyPSA/pypsa-eur]<br /> <br /> PyPSA-Eur-Sec includes all other energy demand and supply: [https://github.com/PyPSA/pypsa-eur-sec https://github.com/PyPSA/pypsa-eur-sec]<br /> <br /> <br/><br /> <br /> === JRC-EU-TIMES<br/> ===<br /> <br /> [https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies https://ec.europa.eu/jrc/en/scientific-tool/jrc-eu-times-model-assessing-long-term-role-energy-technologies]<br/><br /> <br /> === Dispa-SET "Power System Flexibility in a variable climate"<br/> ===<br /> <br /> [https://zenodo.org/record/3775569#.YEOpXdzTWt8 Input files on Zenodo]<br/><br /> <br /> == France<br/> ==<br /> <br /> === EOLES_elec<br/> ===<br /> <br /> [https://github.com/BehrangShirizadeh/EOLES_elec https://github.com/BehrangShirizadeh/EOLES_elec]<br /> <br /> == UK ==<br /> <br /> === UK-Calliope ===<br /> <br /> [https://github.com/calliope-project/uk-calliope https://github.com/calliope-project/uk-calliope]<br /> <br /> == Switzerland ==<br /> <br /> === Swiss EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/v2.0 https://github.com/energyscope/EnergyScope/tree/v2.0]&nbsp;<br /> <br /> == Belgium ==<br /> <br /> === Belgian EnergyScope ===<br /> <br /> [https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020 https://github.com/energyscope/EnergyScope/tree/Limpens_Belgian_2020]&nbsp;<br /> <br /> = North America =<br /> <br /> == United States ==<br /> <br /> === PowerGenome ===<br /> <br /> [https://github.com/PowerGenome/PowerGenome https://github.com/PowerGenome/PowerGenome]<br /> <br /> === Breakthrough Energy US Model ===<br /> <br /> [https://arxiv.org/abs/2002.06155 https://arxiv.org/abs/2002.06155]<br /> <br /> [https://github.com/Breakthrough-Energy https://github.com/Breakthrough-Energy]<br /> <br /> [https://breakthrough-energy.github.io/docs/index.html https://breakthrough-energy.github.io/docs/index.html]<br /> <br /> === Reliability Test System Grid Modernization Lab Consortium (RTS-GMLC) ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS-GMLC]<br /> <br /> === 24-Bus Reliability Test System ===<br /> <br /> [https://github.com/IIT-EnergySystemModels/openTEPES/tree/master/openTEPES/RTS24]<br /> <br /> === Open Energy Outlook for the United States ===<br /> <br /> [https://openenergyoutlook.org/ https://openenergyoutlook.org/]<br /> <br /> [https://github.com/TemoaProject/oeo https://github.com/TemoaProject/oeo]<br /> <br /> <br/><br/></div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T10:08:32Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=Yes<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy (electricity & hydrogen & heat) system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain, Portugal<br /> |georesolution=Node<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T10:05:20Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=Yes<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy (electricity & hydrogen & heat) system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |georesolution=Node<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T10:03:40Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=Yes<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy (electricity & hydrogen & heat) system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T10:02:33Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy (electricity & hydrogen & heat) system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T10:01:49Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy (electricity, hydrogen, heat) system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T09:59:19Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |processing_software=Python / Pandas<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T09:58:18Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up energy system model<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/Universidad_Pontificia_Comillas Universidad Pontificia Comillas 2025-01-03T09:50:09Z

<p>Andres Ramos: </p> <hr /> <div>{{Institution<br /> |Full Name=Universidad Pontificia Comillas. Instituto de Investigacion Tecnologica<br /> |Abbreviation=Comillas-IIT<br /> |Website=https://www.iit.comillas.edu/index.php.en<br /> |Address=Alberto Aguilera 23, 28015 Madrid, Spain<br /> }}<br /> The IIT, Institute for Research in Technology, belongs to the School of Engineering (ICAI) of Comillas Pontifical University of Madrid (Comillas).<br /> <br /> Its main aim is to promote research and postgraduate training in diverse technological fields through participation in specific projects of interest for Industry and the Government.<br /> <br /> It is a non-profit Institute, which aims to be flexible and pragmatic in the way it works. It is essentially financed by projects contracted by companies, and thus responds to a clear social demand.<br /> <br /> The results of the research projects can be grouped according to the following categories:<br /> <br /> *Computer science applications (generally developed according to client specifications) used by an increasing number of companies.<br /> *Analyses, studies, and consultancy developed for companies and institutions in different countries.<br /> *Doctoral theses read at the University and publications at international conferences or in international journals.<br /> <br /> <br /> <br /> Research in the IIT is conducted by the academic staff (Professors and Researchers) as well as by a group of postgraduates following a Research Training Program. Postgraduate students are generally funded by IIT scholarships and work as Research Assistants exclusively at the Institute. Work teams are formed from both groups to develop research projects, sometimes resulting in doctoral theses.</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T09:46:38Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |Primary outputs=Investment, operation, emission, marginal, economica, and operational flexibility results<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |Source of funding=European and Spanish research projects<br /> |Number of developers=Three<br /> |Number of users=+132k downloads<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |model_class=Bottom-up<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Solid)=Biomass, Coal, Lignite, Uranium<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Gas)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=Yes<br /> |Storage (Heat)=Yes<br /> |Market models=Centralized dispatch and investment<br /> |decisions=dispatch, investment<br /> |georegions=Europe, African power pools, Spain<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_modeltype_shortdesc=Two-stage stochastic optimization model to determine the best invesment and operation decisions<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |deterministic=Two-stage stochastic optimization<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer or server<br /> |computation_time_comments=Computation time will depend on the optimization problem size<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |example_research_questions=Energy transition analysis<br /> * Linkage with energy system models (integrated assessment models IAM) to refine the representation of the power sector <br /> * National Energy and Climate Plan (NECP) 2030 for Spain<br /> <br /> Storage analysis<br /> * Cost-benefit analysis (CBA) of candidate pumped-hydro storage units<br /> * Future ESS role (batteries vs. pumped-hydro storage vs. CSP)<br /> * Penetration of EV and type of charge<br /> * Impact of local energy communities (LEC) on transmission investments with detailed representation of storage hydro<br /> <br /> Security of supply<br /> * Technologies providing firmness and flexibility to the system<br /> |Larger scale usage=European electric system<br /> |Interfaces=CSV files<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T09:28:48Z

<p>Andres Ramos: </p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Python / Pyomo<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=No<br /> |Storage (Heat)=Yes<br /> |decisions=dispatch, investment<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/OpenTEPES OpenTEPES 2025-01-03T09:27:29Z

<p>Andres Ramos: Created page with "{{Model |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS |Acronym=openTEPES |author_institution=Universidad ..."</p> <hr /> <div>{{Model<br /> |Full_Model_Name=Open Generation, Storage, and Transmission Operation and Expansion Planning Model with RES and ESS<br /> |Acronym=openTEPES<br /> |author_institution=Universidad Pontificia Comillas<br /> |authors=Andres Ramos, Erik Alvarez, Francisco Labora<br /> |contact_persons=Andres Ramos<br /> |contact_email=andres.ramos@comillas.edu<br /> |website=https://opentepes.readthedocs.io/en/latest/index.html<br /> |source_download=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |logo=OpenTEPES.png<br /> |text_description=The openTEPES model presents a decision support system for defining the integrated generation, storage, and transmission expansion plan (GEP+SEP+TEP) of a large-scale electric system at a tactical level (i.e., time horizons of 10-20 years), defined as a set of generation, storage, and (electricity, hydrogen, and heat) networks dynamic investment decisions for multiple future years.<br /> |User documentation=https://opentepes.readthedocs.io/en/latest/index.html<br /> |Code documentation=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |open_source_licensed=Yes<br /> |license=Affero General Public License v3 (AGPL-3.0)<br /> |model_source_public=Yes<br /> |Link to source=https://github.com/IIT-EnergySystemModels/openTEPES<br /> |data_availability=all<br /> |open_future=No<br /> |modelling_software=Pyhton / Pyomo<br /> |External optimizer=HiGHS, Gurobi<br /> |GUI=No<br /> |sectors=Electricity, Hydrogen, Heat<br /> |technologies=Renewables, Conventional Generation, CHP<br /> |Demand sectors=Households, Industry, Commercial sector<br /> |Energy carrier (Gas)=Hydrogen<br /> |Energy carriers (Renewable)=Hydro, Sun, Wind<br /> |Transfer (Electricity)=Transmission<br /> |Transfer (Heat)=Transmission<br /> |Storage (Electricity)=Battery, PHS<br /> |Storage (Gas)=No<br /> |Storage (Heat)=Yes<br /> |decisions=dispatch, investment<br /> |timeresolution=Hour<br /> |network_coverage=transmission, DC load flow, net transfer capacities<br /> |Observation period=More than one year<br /> |math_modeltype=Optimization<br /> |math_objective=Minimise total discounted cost of the energy system<br /> |is_suited_for_many_scenarios=Yes<br /> |number_of_variables=Millions<br /> |montecarlo=No<br /> |computation_time_minutes=60<br /> |computation_time_hardware=Any personal computer<br /> |citation_references=A. Ramos, E. Quispe, S. Lumbreras “OpenTEPES: Open-source Transmission and Generation Expansion Planning” SoftwareX 18: June 2022 10.1016/j.softx.2022.101070<br /> |citation_doi=10.1016/j.softx.2022.101070<br /> |Model input file format=Yes<br /> |Model file format=Yes<br /> |Model output file format=Yes<br /> }}</div>

Andres Ramos https://wiki.openmod-initiative.org/wiki/File:OpenTEPES.png File:OpenTEPES.png 2025-01-03T09:21:00Z

<p>Andres Ramos: openTEPES logo</p> <hr /> <div>openTEPES logo</div>

Andres Ramos