Power System Stability Using Modelica. Øyvang, T., Winkler, D., Lie, B., & Hegglid, J. G. In Proceedings of 'The 55th Scandinavian Conference on Simulation and Modeling (SIMS 2014)', of Linköping Electronic Conference Proceedings, pages 120–127. Linköping University Electronic Press.
doi  abstract   bibtex   
This paper is concerned with power system modeling using the Modelica language in comparison to a traditional simulation tool. Though most common power system simulation tools are computationally efficient and reasonably user-friendly, they have a closed architecture. Thus, there is motivation to use an open-source modeling language to describe electric networks, such as Modelica. A well-established benchmark for power system studies was analyzed. Regarding the voltage as a function of time, a reasonable agreement was found between the simulation results of the used simulation tools for long-term voltage stability. However, a comparison of faster electromechanical mechanisms, such as rotor angle stability, demands more detailed models in the Modelica tool.
@inproceedings{Oyvang2014,
  title = {Power System Stability Using {{Modelica}}},
  booktitle = {Proceedings of '{{The}} 55th {{Scandinavian Conference}} on {{Simulation}} and {{Modeling}} ({{SIMS}} 2014)'},
  author = {Øyvang, Thomas and Winkler, Dietmar and Lie, Bernt and Hegglid, John Gunne},
  date = {2014-10-21},
  series = {Linköping {{Electronic Conference Proceedings}}},
  pages = {120--127},
  publisher = {{Linköping University Electronic Press}},
  location = {{Aalborg, Denmark}},
  doi = {10.3384/ecp14108010},
  abstract = {This paper is concerned with power system modeling using the Modelica language in comparison to a traditional simulation tool. Though most common power system simulation tools are computationally efficient and reasonably user-friendly, they have a closed architecture. Thus, there is motivation to use an open-source modeling language to describe electric networks, such as Modelica. A well-established benchmark for power system studies was analyzed. Regarding the voltage as a function of time, a reasonable agreement was found between the simulation results of the used simulation tools for long-term voltage stability. However, a comparison of faster electromechanical mechanisms, such as rotor angle stability, demands more detailed models in the Modelica tool.},
  file = {/home/dietmarw/FoU/Publications/zotero/storage/EGPE5PPW/ecp14108010.pdf}
}

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