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| | |is_suited_for_many_scenarios=No | | |is_suited_for_many_scenarios=No |
| | |montecarlo=No | | |montecarlo=No |
| | + | |citation_references=C. Matke C, et al., Paper: (2017) Structure Analysis of the German Transmission Network Using the Open Source Model SciGRID. In: Bertsch V., Fichtner W., Heuveline V., Leibfried T. (eds) Advances in Energy System Optimization. Trends in Mathematics. Birkhäuser, Cham. https://doi.org/10.1007/978-3-319-51795-7_11 |
| | |report_references=M. Rohden, et al., Paper: "Cascading Failures in AC Electricity Grids." arXiv preprint | | |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. | + | D. Jung and S. Kettemann, Paper: "Long-Range Response in AC Electricity Grids." Phys. Rev. E. 94, 012307(2016). |
| | |Model input file format=No | | |Model input file format=No |
| | |Model file format=No | | |Model file format=No |
| | |Model output file format=No | | |Model output file format=No |
| | }} | | }} |
Revision as of 17:46, 13 September 2020
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SciGRID
by DLR Institute of Networked Energy Systems
Authors:
Wided Medjroubi, Carsten Matke
Contact:
Wided Medjroubi, Carsten Matke
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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.
Based on Python, PostgreSQL. Using Python, PostgreSQL, Osmosis, osm2pgsql for data processing.
Website / Documentation
Download
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 Open Source
Apache License 2.0 (Apache-2.0)
Directly downloadable
Input data shipped
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| Model Scope |
Model type and solution approach |
| Model class
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Transmission Network Model and Data (input and output)
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| Sectors
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Electricity Sector, Mathematical models of networks, network
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| Technologies
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| Decisions
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| Regions
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Europe and Germany (any other EU country also possible)
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| Geographic Resolution
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nodal resolution (all nodes are included)
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| Time resolution
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| Network coverage
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transmission
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| Model type
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Simulation
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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.
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| Variables
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| Computation time
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minutes
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| Objective
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| Uncertainty modeling
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| Suited for many scenarios / monte-carlo
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No
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References
Scientific references
C. Matke C, et al., Paper: (2017) Structure Analysis of the German Transmission Network Using the Open Source Model SciGRID. In: Bertsch V., Fichtner W., Heuveline V., Leibfried T. (eds) Advances in Energy System Optimization. Trends in Mathematics. Birkhäuser, Cham. https://doi.org/10.1007/978-3-319-51795-7_11
Reports produced using the model
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).
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