Lavery M, Schwanninger R, März M (2023)
Publication Type: Conference contribution
Publication year: 2023
Publisher: IEEE
Conference Proceedings Title: 2023 IEEE Fifth International Conference on DC Microgrids
DOI: 10.1109/ICDCM54452.2023.10433620
An analysis-use-case dependent modeling approach for the computer simulation of hybrid AC-DC grids employing component models with varying degrees of complexity is presented. Three different component model complexity levels for three different component functionality groups and three different use cases are defined. The component modeling is based on analytical averaged descriptions of the converter behavior and introduces a standardized model interface. The proposed merits of this approach are faster simulation times and easier result evaluation making this approach suitable for automated grid simulation and assisted layout evaluation. This makes a technical and economical design evaluation of AC- DC grids much more feasible. Furthermore, manufacturers of grid components could use this design approach to develop models with unified interface ports to be used in DC grid model component libraries. The optimization of computing time for different simulation run times is tested and presented using a simulation tool developed using this approach.
APA:
Lavery, M., Schwanninger, R., & März, M. (2023). Use-Case- Dependent Modeling Approach for Computer Simulation of Hybrid AC-DC Grids. In 2023 IEEE Fifth International Conference on DC Microgrids. Auckland, NZ: IEEE.
MLA:
Lavery, Melanie, Raffael Schwanninger, and Martin März. "Use-Case- Dependent Modeling Approach for Computer Simulation of Hybrid AC-DC Grids." Proceedings of the 2023 IEEE Fifth International Conference on DC Microgrids, Auckland IEEE, 2023.
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