期刊
ENERGIES
卷 16, 期 19, 页码 -出版社
MDPI
DOI: 10.3390/en16197013
关键词
co-simulation; functional mock-up interface; functional mock-up unit; wind farm modeling; wind farm simulation
This paper presents the development of a wind energy conversion system co-simulation based on the Functional Mock-up Interface standard, aiming to contribute to the development of co-simulation of large electrical power systems using open-source and standardized computational tools.
This paper presents the development of a wind energy conversion system co-simulation based on the Functional Mock-up Interface standard aiming at contributing to the development of co-simulation of large electrical power systems by means of open-source and standardized computational tools. Co-simulation enables the computational burden of a monolithic simulation to be shared among several processing units, significantly reducing processing time. Through the Functional Mock-up Interface standard, developed models are encapsulated into Functional Mock-up Unit, providing an extra means for the protection of intellectual property, a very appealing feature for end users, both in industry and academia. To achieve the decoupling of the subsystems, the Bergeron ideal transmission line model will be used, with travel time equal to the simulation time-step. The computational performance and effectiveness of the proposed co-simulation technique was evaluated with a wind power plant with 50 wind turbines. The system digital models were developed into Modelica language, while co-simulation was implemented in Python.
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