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Research on frequency modulation control of photovoltaic power generation system based on VSG
[Modeling and simulation of photovoltaic power generation system based on VSG]

Author

Listed:
  • Chunlai Li
  • Shun Yuan

Abstract

In order to improve the friendliness of the grid connection of new energy power generation, the new energy photovoltaic (PV) unit is equivalent to a synchronous generator in the power system and a virtual synchronous generator (VSG)-controlled PV energy storage complementary grid-connected power generation system model is established and studied to analyze the VSG. When power is supplied to the load together with the power grid, the energy storage unit inside the VSG will release and store the electrical energy according to the fluctuation of the PV output, which plays the role of the adjustment of the prime mover; in the case of load power fluctuations, and power grid assume the corresponding active power regulation according to their capacity. The amount of active power adjustment to jointly and maintain the power balance inside the system under the condition of fluctuating load power. The overall system architecture and control strategy of PV grid-connected inverter based on VSG algorithm are proposed. The PV-VSG proposed here not only takes into account the maximum power point tracking control but also has independent participation in the power supply. A series of characteristics of synchronous generators, such as network frequency modulation voltage regulation and inertia damping, can effectively improve the new energy PV power generation system and promote the new energy consumption. The results of system simulation and field demonstration operation fully show the effectiveness and correctness of the proposed control strategy based on VSG algorithm.

Suggested Citation

  • Chunlai Li & Shun Yuan, 2021. "Research on frequency modulation control of photovoltaic power generation system based on VSG [Modeling and simulation of photovoltaic power generation system based on VSG]," International Journal of Low-Carbon Technologies, Oxford University Press, vol. 16(2), pages 287-293.
  • Handle: RePEc:oup:ijlctc:v:16:y:2021:i:2:p:287-293.
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    File URL: http://hdl.handle.net/10.1093/ijlct/ctaa054
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