Antares-Simulator

Authors:

Contact:
Paul Plessiez, Jean-Marc Janin, Romain Rousselin-Reinhardt

Antares-Simulator is an open-source tool for the modelling, the simulation and the planning of multi-energy systems. It is a sequential Monte-Carlo simulator designed for short to long term studies of large interconnected energy grids. It simulates the economic behavior of the whole transmission-generation system, throughout the year and with a resolution of one hour.

Based on C++, C. Using Python, TypeScript for data processing.

Website / Documentation
Download

Open Source
GNU General Public License version 3.0 (GPL-3.0)

Directly downloadable

Some input data shipped

Model Scope

Model type and solution approach

Model class	Capacity Expansion Problem, Production Cost Model
Sectors	Electricity, Methane, Hydrogen, Heat
Technologies	Renewables, Conventional Generation, CHP
Decisions	dispatch, investment
Regions	Europe
Geographic Resolution	NUTS0 - NUTS2
Time resolution	Hour
Network coverage	transmission, DC load flow, net transfer capacities

Model type	Optimization, Simulation
	Investment planning: optimization based on Benders decomposition Dispatch : simulation based on MILP
Variables
Computation time	20 minutes on a Monte-Carlo year for a pan-European system"minutesonaMonte-Carloyearforapan-Europeansystem" is not declared as a valid unit of measurement for this property. minutes (Monte-Carlo years solving can be parallelized, significantly reducing the computation time when many MC years are simulated)
Objective	socio-economic welfare, investment costs, greenhouse gas emissions
Uncertainty modeling	Monte-Carlo methods, myopic week-ahead foresight
Suited for many scenarios / monte-carlo	Yes

References

Scientific references

A New tool for adequacy reporting of electric systems. CIGRE 2008, C1-305 (M. Doquet, R. Gonzalez, S. Lepy, E. Momot, F. Verrier)

Reports produced using the model

- RTE, "Energy Pathways to 2050", https://assets.rte-france.com/prod/public/2022-01/Energy%20pathways%202050_Key%20results.pdf

- Lauvergne, Rémi, Yannick Perez, Mathilde Françon, et Alberto Tejeda De La Cruz. « Integration of Electric Vehicles into Transmission Grids: A Case Study on Generation Adequacy in Europe in 2040 ». Applied Energy 326 (15 novembre 2022): 120030. https://doi.org/10.1016/j.apenergy.2022.120030.

- Lynch, Arthur, Yannick Perez, Sophie Gabriel, et Gilles Mathonniere. « Nuclear Fleet Flexibility: Modeling and Impacts on Power Systems with Renewable Energy ». Applied Energy 314 (15 mai 2022): 118903. https://doi.org/10.1016/j.apenergy.2022.118903.

- Houghton, T., K. R. W. Bell, et M. Doquet. « Offshore Transmission for Wind: Comparing the Economic Benefits of Different Offshore Network Configurations ». Renewable Energy 94 (1 août 2016): 268‑79. https://doi.org/10.1016/j.renene.2016.03.038.

- A. T. Samuel, A. Aldamanhori, A. Ravikumar and G. Konstantinou, "Stochastic Modeling for Future Scenarios of the 2040 Australian National Electricity Market using ANTARES," 2020 International Conference on Smart Grids and Energy Systems (SGES), Perth, Australia, 2020, pp. 761-766, doi: 10.1109/SGES51519.2020.00141.

Example research questions

What are the best investment options to efficiently decarbonize the European energy sector? What is the operational cost of a given pan-european energy mix? What can be the added value of reinforcing the transmission grid on a given border?

◀ back to model list

Author institution	RTE +
Citation references	A New tool for adequacy reporting of electric systems. CIGRE 2008, C1-305 (M. Doquet, R. Gonzalez, S. Lepy, E. Momot, F. Verrier)
Computation time comments	Monte-Carlo years solving can be parallelized, significantly reducing the computation time when many MC years are simulated
Computation time minutes
Contact email	paul.plessiez@rte-france.com +
Contact persons	Paul Plessiez, Jean-Marc Janin, Romain Rousselin-Reinhardt +
Data availability	some +
Decisions	dispatch + and investment +
Deterministic	Monte-Carlo methods, myopic week-ahead foresight +
Example research questions	What are the best investment options to efficiently decarbonize the European energy sector? What is the operational cost of a given pan-european energy mix? What can be the added value of reinforcing the transmission grid on a given border?
Full Model Name	Antares-Simulator +
Georegions	Europe +
Georesolution	NUTS0 - NUTS2 +
Is suited for many scenarios	true +
License	GNU General Public License version 3.0 (GPL-3.0) +
Math modeltype	Optimization + and Simulation +
Math modeltype shortdesc	Investment planning: optimization based on Benders decomposition Dispatch : simulation based on MILP +
Math objective	socio-economic welfare, investment costs, greenhouse gas emissions +
Model class	Capacity Expansion Problem + and Production Cost Model +
Model source public	true +
Modelling software	C++, C +
Network coverage	transmission +, DC load flow + and net transfer capacities +
Open future	false +
Open source licensed	true +
Processing software	Python, TypeScript +
Report references	- RTE, "Energy Pathways to 2050", https:// … - RTE, "Energy Pathways to 2050", https://assets.rte-france.com/prod/public/2022-01/Energy%20pathways%202050_Key%20results.pdf - Lauvergne, Rémi, Yannick Perez, Mathilde Françon, et Alberto Tejeda De La Cruz. « Integration of Electric Vehicles into Transmission Grids: A Case Study on Generation Adequacy in Europe in 2040 ». Applied Energy 326 (15 novembre 2022): 120030. https://doi.org/10.1016/j.apenergy.2022.120030. - Lynch, Arthur, Yannick Perez, Sophie Gabriel, et Gilles Mathonniere. « Nuclear Fleet Flexibility: Modeling and Impacts on Power Systems with Renewable Energy ». Applied Energy 314 (15 mai 2022): 118903. https://doi.org/10.1016/j.apenergy.2022.118903. - Houghton, T., K. R. W. Bell, et M. Doquet. « Offshore Transmission for Wind: Comparing the Economic Benefits of Different Offshore Network Configurations ». Renewable Energy 94 (1 août 2016): 268‑79. https://doi.org/10.1016/j.renene.2016.03.038. - A. T. Samuel, A. Aldamanhori, A. Ravikumar and G. Konstantinou, "Stochastic Modeling for Future Scenarios of the 2040 Australian National Electricity Market using ANTARES," 2020 International Conference on Smart Grids and Energy Systems (SGES), Perth, Australia, 2020, pp. 761-766, doi: 10.1109/SGES51519.2020.00141.61-766, doi: 10.1109/SGES51519.2020.00141.
Sectors	Electricity +, Methane +, Hydrogen + and Heat +
Source download	https://antares-simulator.org/pages/antares-simulator/6/ +
Technologies	Renewables +, Conventional Generation + and CHP +
Text description	Antares-Simulator is an open-source tool f … Antares-Simulator is an open-source tool for the modelling, the simulation and the planning of multi-energy systems. It is a sequential Monte-Carlo simulator designed for short to long term studies of large interconnected energy grids. It simulates the economic behavior of the whole transmission-generation system, throughout the year and with a resolution of one hour.he year and with a resolution of one hour.
Timeresolution	Hour +
Website	https://antares-simulator.org/ +

About

Help

Search

Navigation

Search

Interaction

Toolbox

Namespaces

Variants

Views

Actions

Antares-Simulator

References

Scientific references

Reports produced using the model

Example research questions

Log in / create account

About

Help

Search

Navigation

Search

Interaction

Toolbox

Namespaces

Variants

Views

Actions

Antares-Simulator

References

Scientific references

Reports produced using the model

Example research questions