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| | |source_download=https://github.com/quintel/documentation | | |source_download=https://github.com/quintel/documentation |
| | |logo=LogoETM.png | | |logo=LogoETM.png |
| − | |text_description=Web-based model based on a holistic description of a countries energy system. | + | |text_description=Web-based model based on a holistic description of a country's energy system. |
| | |open_source_licensed=Yes | | |open_source_licensed=Yes |
| | |license=MIT license (MIT) | | |license=MIT license (MIT) |
| | |model_source_public=Yes | | |model_source_public=Yes |
| | |data_availability=all | | |data_availability=all |
| − | |open_future=No | + | |open_future=Yes |
| | |modelling_software=Developed in-house written in Ruby (on Rails) | | |modelling_software=Developed in-house written in Ruby (on Rails) |
| | |processing_software=Excel / VBA | | |processing_software=Excel / VBA |
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| | |georegions=EU27, The Netherlands, UK, Poland, France, Germany, Spain, Brazil | | |georegions=EU27, The Netherlands, UK, Poland, France, Germany, Spain, Brazil |
| | |georesolution=Country | | |georesolution=Country |
| − | |timeresolution=Single time slice | + | |timeresolution=Year |
| | |network_coverage=transmission, distribution, net transfer capacities | | |network_coverage=transmission, distribution, net transfer capacities |
| | |math_modeltype=Simulation | | |math_modeltype=Simulation |
| − | |math_modeltype_shortdesc=The ETM is based on an energy graph where nodes can convert one type of energy into another. | + | |math_modeltype_shortdesc=The ETM is based on an energy graph where nodes can convert one type of energy into another. |
| | |math_objective=Given demand and other choices, calculate primary energy use, costs, CO2-emission etc. | | |math_objective=Given demand and other choices, calculate primary energy use, costs, CO2-emission etc. |
| | |deterministic=The user can assess the impact of almost every input variable and assumption | | |deterministic=The user can assess the impact of almost every input variable and assumption |
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| | |number_of_variables=300 | | |number_of_variables=300 |
| | |computation_time_minutes=0.0083333 | | |computation_time_minutes=0.0083333 |
| − | |computation_time_comments=From input to output, including communication with the server the calculation takes less than a second (except with very slow internet connections). | + | |computation_time_comments=From input to output, including communication with the server the calculation takes less than a second (except with very slow internet connections). |
| | |citation_references=https://github.com/quintel/documentation | | |citation_references=https://github.com/quintel/documentation |
| | |report_references=http://www.energieakkoordser.nl/~/media/files/energieakkoord/nieuwsberichten/2015/20141212-quintel.ashx, | | |report_references=http://www.energieakkoordser.nl/~/media/files/energieakkoord/nieuwsberichten/2015/20141212-quintel.ashx, |
What would happen (to reliability, CO2, cost) if we close all non-profitable power plants?
Which combinations of options can we use to reach a certain goal (in sustainability, cost, import dependence etc.)?
