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| | {{Model | | {{Model |
| | |Full_Model_Name=SciGRID | | |Full_Model_Name=SciGRID |
| − | |author_institution=Next Energy | + | |author_institution=NEXT ENERGY, Reserach Centre for Energy Technology |
| − | |authors=Wided Medjroubi, Carsten Matke, David Kleinhans | + | |authors=Wided Medjroubi, Carsten Matke |
| − | |contact_email=developers(at)scigrid.de | + | |contact_persons=Wided Medjroubi, Carsten Matke |
| | + | |contact_email=developers(at)scigrid.de, scigrid(at)next-energy.de |
| | |website=http://www.scigrid.de/ | | |website=http://www.scigrid.de/ |
| | |source_download=http://www.scigrid.de/pages/downloads.html | | |source_download=http://www.scigrid.de/pages/downloads.html |
| − | |text_description=SciGRID is an open source model of the European transmission network. On the 15.06.2015 the first version (release V0.1) of SciGRID was released. The second version (release V0.2) was made available on the 20.11.2015. | + | |logo=SciGRID Logo.jpg |
| | + | |text_description=SciGRID is an open source model of the European transmission network. On the 15.06.2015 the first version (release V0.1) of SciGRID was released and the second version (release V0.2) was made available on the 20.11.2015. The third release of SciGRID (release 0.3) was made available on the 1st of August 2016 and includes a European and German dataset. |
| | |open_source_licensed=Yes | | |open_source_licensed=Yes |
| | |license=Apache License 2.0 (Apache-2.0) | | |license=Apache License 2.0 (Apache-2.0) |
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| | |modelling_software=Python, PostgreSQL | | |modelling_software=Python, PostgreSQL |
| | |processing_software=Python, PostgreSQL, Osmosis, osm2pgsql | | |processing_software=Python, PostgreSQL, Osmosis, osm2pgsql |
| − | |model_class=Transmission network | + | |model_class=Transmission Network Model and Data (input and output) |
| − | |sectors=Electricity sector | + | |sectors=Electricity Sector, Mathematical models of networks, network |
| − | |georegions=Germany (later Europe) | + | |georegions=Europe and Germany (any other EU country also possible) |
| | + | |georesolution=nodal resolution (all nodes are included) |
| | |network_coverage=transmission | | |network_coverage=transmission |
| | + | |math_modeltype=Simulation |
| | |math_modeltype_shortdesc=We consider a topological graph (V,L) as a mathematical structure that consists of a set V of vertices and a set L of nonempty subsets of V called links. | | |math_modeltype_shortdesc=We consider a topological graph (V,L) as a mathematical structure that consists of a set V of vertices and a set L of nonempty subsets of V called links. |
| | |is_suited_for_many_scenarios=No | | |is_suited_for_many_scenarios=No |
| | + | |report_references=M. Rohden, et al., Paper: "Cascading Failures in AC Electricity Grids." arXiv preprint |
| | + | D. Jung and S. Kettemann, Paper: "Long-Range Response in AC Electricity Grids." Phys. Rev. E. 94, 012307(2016). Just published and is an editors' suggestion. |
| | + | |
| | }} | | }} |
M. Rohden, et al., Paper: "Cascading Failures in AC Electricity Grids." arXiv preprint
D. Jung and S. Kettemann, Paper: "Long-Range Response in AC Electricity Grids." Phys. Rev. E. 94, 012307(2016). Just published and is an editors' suggestion.
