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| {{Model | | {{Model |
| |Full_Model_Name=Genetic Optimisation of a European Energy Supply System | | |Full_Model_Name=Genetic Optimisation of a European Energy Supply System |
| + | |Acronym=GENESYS(1) |
| |author_institution=RWTH-Aachen University | | |author_institution=RWTH-Aachen University |
| |authors=Alvarez, Bussar, Cai, Chen, Moraes Jr., Stöcker, Thien | | |authors=Alvarez, Bussar, Cai, Chen, Moraes Jr., Stöcker, Thien |
| |contact_persons=Christian Bussar | | |contact_persons=Christian Bussar |
| |contact_email=cbu@isea.rwth-aachen.de ; genesys@isea.rwth-aachen.de | | |contact_email=cbu@isea.rwth-aachen.de ; genesys@isea.rwth-aachen.de |
− | |website=www.genesys.rwth-aachen.de | + | |website=http://www.genesys.rwth-aachen.de |
| |source_download=Form on website | | |source_download=Form on website |
| |logo=Genesys.png | | |logo=Genesys.png |
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| |modelling_software=C++, boost library, MySQL and QT4, (optional CPLEX solver implementation) | | |modelling_software=C++, boost library, MySQL and QT4, (optional CPLEX solver implementation) |
| |processing_software=Excel/Matlab and a Visualisation tool programmed in QT4 (c++) | | |processing_software=Excel/Matlab and a Visualisation tool programmed in QT4 (c++) |
| + | |GUI=No |
| |model_class=Electricity System Model | | |model_class=Electricity System Model |
| |sectors=Electricity | | |sectors=Electricity |
| |technologies=Renewables, Conventional Generation | | |technologies=Renewables, Conventional Generation |
| + | |Storage (Gas)=No |
| + | |Storage (Heat)=No |
| |decisions=dispatch, investment | | |decisions=dispatch, investment |
| |georegions=Europe, North Africa, Middle East | | |georegions=Europe, North Africa, Middle East |
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| |deterministic=24 h foresight for storage operation | | |deterministic=24 h foresight for storage operation |
| |is_suited_for_many_scenarios=No | | |is_suited_for_many_scenarios=No |
| + | |montecarlo=No |
| |computation_time_minutes=1-3 min for operation simulation (5y data) <br> 80h optimisation run | | |computation_time_minutes=1-3 min for operation simulation (5y data) <br> 80h optimisation run |
| |citation_references=Bussar et. al, 2014, Optimal Allocation and Capacity of Energy Storage Systems in a Future European Power System with 100% Renewable Energy Generation | | |citation_references=Bussar et. al, 2014, Optimal Allocation and Capacity of Energy Storage Systems in a Future European Power System with 100% Renewable Energy Generation |
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| How much renewable generator power of which technology are necessary? | | How much renewable generator power of which technology are necessary? |
| How much conventional generators are allowed within assumed CO2 emission limits? | | How much conventional generators are allowed within assumed CO2 emission limits? |
| + | |Model input file format=No |
| + | |Model file format=No |
| + | |Model output file format=No |
| }} | | }} |
Bussar et. al, 2014, Optimal Allocation and Capacity of Energy Storage Systems in a Future European Power System with 100% Renewable Energy Generation
https://dx.doi.org/10.1016/j.egypro.2014.01.156
How much storage systems of which technology needs to be implemented in the future energy system.
How big are the transfer capacities between regions.
How much renewable generator power of which technology are necessary?
How much conventional generators are allowed within assumed CO2 emission limits?