Investigation of the Feasibility of the Dynamic Equivalent Model of Large Photovoltaic Power Plants in a Harmonic Resonance Study

In recent years, there have been several harmonic resonance accidents around the world that involve renewable energy power plants. The frequency scanning method is the most widely used technique in engineering practice to evaluate the severity of resonance due to its simple operation and clear physi...

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Bibliographic Details
Published in:Electronics (Basel) 2023-09, Vol.12 (18), p.3746
Main Authors: Xie, Yuzhe, He, Yanhua, Zhou, Xuntian, Zhang, Zhigang
Format: Article
Language:English
Subjects:
Alternative energy sources
Complexity
Control
Dynamic equivalents
Electric power systems
Equivalence
Feasibility studies
Frequency scanning
Inductance
Photovoltaic power generation
Power plants
Protection and preservation
Renewable resources
Resonance
Resonant frequencies
Simulation models
Solar power plants
Wind farms
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Summary:In recent years, there have been several harmonic resonance accidents around the world that involve renewable energy power plants. The frequency scanning method is the most widely used technique in engineering practice to evaluate the severity of resonance due to its simple operation and clear physical meaning. However, when establishing electromagnetic transient simulation models and conducting frequency scans, a single generation unit or a few renewable generation units are usually used to represent the original power plant for the purpose of reducing model complexity and improving the simulation efficiency. Such a practice has been found to be effective in dynamic studies around the fundamental frequency. However, its feasibility in harmonic resonance studies has not yet been fully investigated. Because of this research gap, a feasibility study is conducted in this paper by using a real-life photovoltaic power plant. The detailed harmonic model of the plant is first established using the harmonic linearization method, and the equivalent harmonic model is then developed using the power loss conservation method. The feasibility of the equivalent model was investigated in detail, and the impact of the different impedance models on the resonance analysis was analyzed. The results indicate that the conventional dynamic equivalent model can effectively reflect the harmonic resonance characteristics of photovoltaic power plants. Furthermore, a more simplified model that ignores the inductance of the collector line is recommended in this paper to further reduce the modeling complexity.
ISSN:2079-9292
2079-9292
DOI:10.3390/electronics12183746