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| |georesolution=Country | | |georesolution=Country |
| |timeresolution=Hour | | |timeresolution=Hour |
− | |network_coverage=transmission
| |
| |Observation period=Less than one month, Less than one year | | |Observation period=Less than one month, Less than one year |
| |Additional dimensions (Ecological)=Total greenhouse gases emissions | | |Additional dimensions (Ecological)=Total greenhouse gases emissions |
| |Additional dimensions (Economical)=Total system cost | | |Additional dimensions (Economical)=Total system cost |
| |math_modeltype=Optimization | | |math_modeltype=Optimization |
− | |math_modeltype_shortdesc=concise mathematical formulation (GLPK/AMPL) and computational effciency are appropriate for uncertainty applications | + | |math_modeltype_shortdesc=Linear programming (43 equations fully documented). |
| |math_objective=financial cost, greenhouse gases emissions | | |math_objective=financial cost, greenhouse gases emissions |
| |is_suited_for_many_scenarios=Yes | | |is_suited_for_many_scenarios=Yes |
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| |computation_time_hardware=Intel®Core™ Quad i7-6600U CPU @2.60 GHz, with a memory of 16 Go, and a 64-bit system. | | |computation_time_hardware=Intel®Core™ Quad i7-6600U CPU @2.60 GHz, with a memory of 16 Go, and a 64-bit system. |
| |computation_time_comments=Depends on the case complexity. Rarely exceeds 5 minutes. | | |computation_time_comments=Depends on the case complexity. Rarely exceeds 5 minutes. |
− | |citation_references=Limpens G, Moret S, Jeanmart H, Maréchal F,EnergyScope TD: a novel open-source model for regional energy systems. Appl Energy 2019; Volume 255. DOI :https://doi.org/10.1016/j.apenergy.2019.113729 | + | |citation_references=Limpens G, Moret S, Jeanmart H, Maréchal F,EnergyScope TD: a novel open-source model for regional energy systems. Appl Energy 2019; Volume 255. |
− | |citation_doi=https://doi.org/10.1016/j.apenergy.2019.113729 | + | |citation_doi=10.1016/j.apenergy.2019.113729 |
− | |report_references=Limpens G, Moret S, Guidati G, Li X, Maréchal F, Jeanmart H. The role of storage in the Swiss energy transition. PROCEEDINGS OF ECOS 2019 - THE 32ND INTERNATIONAL CONFERENCE ON EFFICIENCY, COST, OPTIMIZATION, SIMULATION AND ENVIRONMENTAL IMPACT OF ENERGY SYSTEMS JUNE 23-28, 2019, WROCLAW, POLAND. 2019 pages 761-774 | + | |report_references=Limpens G, Moret S, Guidati G, Li X, Maréchal F, Jeanmart H. The role of storage in the Swiss energy transition. Proceedings of ECOS2019, june 23-28, 2019, Wroclaw, Poland. 2019 pages 761-774 |
| + | |
| + | Limpens, G., Jeanmart, H., & Maréchal, F. (2020). Belgian Energy Transition: What Are the Options?. Energies, 13(1), 261. |
| |example_research_questions=Role of storage? | | |example_research_questions=Role of storage? |
| Benefit of electrification? | | Benefit of electrification? |
| How to handle high shares of renewables? | | How to handle high shares of renewables? |
| + | What is the impact of uncertainties on investment decisions? |
| |Model validation=Demonstration on previous year (2011) | | |Model validation=Demonstration on previous year (2011) |
| |Comment on model validation=It is not a validation, but a comparison. | | |Comment on model validation=It is not a validation, but a comparison. |
Limpens G, Moret S, Guidati G, Li X, Maréchal F, Jeanmart H. The role of storage in the Swiss energy transition. Proceedings of ECOS2019, june 23-28, 2019, Wroclaw, Poland. 2019 pages 761-774
Limpens, G., Jeanmart, H., & Maréchal, F. (2020). Belgian Energy Transition: What Are the Options?. Energies, 13(1), 261.
Role of storage?
Benefit of electrification?
How to handle high shares of renewables?
What is the impact of uncertainties on investment decisions?