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2017 | OriginalPaper | Chapter

Frequent Deviation-Free Control for Micro-Grid Operation Modes Switching Based on Virtual Synchronous Generator

Authors : Yan Xu, Tengfei Zhang, Dong Yue

Published in: Advanced Computational Methods in Energy, Power, Electric Vehicles, and Their Integration

Publisher: Springer Singapore

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Abstract

The virtual synchronous generator (VSG), which overcomes the impact of the traditional inverter without the moment of inertia to the power grid, improves the stability of the power system and has received extensive attention in Micro-grid. However, since the VSG uses the traditional active power-frequency droop control, there is a frequency deviation in island mode, which will adversely affect the load in Micro-grid. A frequent deviation-free control strategy based on VSG is proposed, i.e., the frequency proportional-integral (PI) module feedback is used to replace the traditional damping module. It will eliminate the frequency deviation of Micro-grid in island mode and realize the Micro-grid inverter to work in multi-mode control. The simulation results show that the effectiveness of the presented VSG based frequent deviation-free control strategy.

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previous chapter Secondary Voltage Control of Microgrids with Distributed Event-Triggered Mechanism
next chapter A Novel Data Injection Cyber-Attack Against Dynamic State Estimation in Smart Grid
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Metadata
Title
Frequent Deviation-Free Control for Micro-Grid Operation Modes Switching Based on Virtual Synchronous Generator
Authors
Yan Xu
Tengfei Zhang
Dong Yue
Copyright Year
2017
Publisher
Springer Singapore
Book
Advanced Computational Methods in Energy, Power, Electric Vehicles, and Their Integration

Print ISBN: 978-981-10-6363-3

Electronic ISBN: 978-981-10-6364-0

Copyright Year: 2017

DOI
https://doi.org/10.1007/978-981-10-6364-0_60

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