A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid
Microgrids rely on both primary and secondary frequency control techniques to maintain system stability. Secondary frequency control effectively minimizes frequency fluctuations by adjusting the active power reference in each power inverter, but requires complex and costly interequipment communicati...
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sg-ntu-dr.10356-1420842020-06-15T09:00:31Z A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid Shuai, Zhikang Huang, Wen Shen, Xia Li, Yifeng Zhang, Xin Shen, John Zheng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Low-bandwidth Communication Maximum Power Loading Factor (MPLF) Microgrids rely on both primary and secondary frequency control techniques to maintain system stability. Secondary frequency control effectively minimizes frequency fluctuations by adjusting the active power reference in each power inverter, but requires complex and costly interequipment communication. In this paper, we propose a distributed secondary frequency control strategy for microgrids containing multiple virtual synchronous generator (VSG) units based on a new maximum power loading factor (MPLF) concept. The MPLF algorithm facilitates power sharing by dynamically identifying the maximum VSG loading factor at each time instance, and then using this value as a unified reference signal for all the VSGs in the microgrid. The active power reference for each VSG will be adjusted based on the unified reference signal, subsequently the secondary frequency control can be realized. The proposed strategy does not require high-bandwidth communication since the MPLF data are transmitted among the VSGs using low-bandwidth communication. We also develop small-signal models for the control architecture to analyze the influence of major proportional-integral control parameters and communication latency. The MPLF control strategy is implemented using custom digital signal processor controllers, and experimentally validated using hardware in loop simulations. Finally, the new control paradigm demonstrates significant tolerance for communication delay or failure, which we purposely introduced in our investigation. 2020-06-15T09:00:31Z 2020-06-15T09:00:31Z 2018 Journal Article Shuai, Z., Huang, W., Shen, X., Li, Y., Zhang, X., & Shen, J. Z. (2019). A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid. IEEE Transactions on Power Electronics, 34(3), 2275-2291. doi:10.1109/TPEL.2018.2837125 0885-8993 https://hdl.handle.net/10356/142084 10.1109/TPEL.2018.2837125 2-s2.0-85047003845 3 34 2275 2291 en IEEE Transactions on Power Electronics © 2018 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Low-bandwidth Communication Maximum Power Loading Factor (MPLF) |
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Engineering::Electrical and electronic engineering Low-bandwidth Communication Maximum Power Loading Factor (MPLF) Shuai, Zhikang Huang, Wen Shen, Xia Li, Yifeng Zhang, Xin Shen, John Zheng A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
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Microgrids rely on both primary and secondary frequency control techniques to maintain system stability. Secondary frequency control effectively minimizes frequency fluctuations by adjusting the active power reference in each power inverter, but requires complex and costly interequipment communication. In this paper, we propose a distributed secondary frequency control strategy for microgrids containing multiple virtual synchronous generator (VSG) units based on a new maximum power loading factor (MPLF) concept. The MPLF algorithm facilitates power sharing by dynamically identifying the maximum VSG loading factor at each time instance, and then using this value as a unified reference signal for all the VSGs in the microgrid. The active power reference for each VSG will be adjusted based on the unified reference signal, subsequently the secondary frequency control can be realized. The proposed strategy does not require high-bandwidth communication since the MPLF data are transmitted among the VSGs using low-bandwidth communication. We also develop small-signal models for the control architecture to analyze the influence of major proportional-integral control parameters and communication latency. The MPLF control strategy is implemented using custom digital signal processor controllers, and experimentally validated using hardware in loop simulations. Finally, the new control paradigm demonstrates significant tolerance for communication delay or failure, which we purposely introduced in our investigation. |
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School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Shuai, Zhikang Huang, Wen Shen, Xia Li, Yifeng Zhang, Xin Shen, John Zheng |
| format |
Article |
| author |
Shuai, Zhikang Huang, Wen Shen, Xia Li, Yifeng Zhang, Xin Shen, John Zheng |
| author_sort |
Shuai, Zhikang |
| title |
A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
| title_short |
A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
| title_full |
A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
| title_fullStr |
A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
| title_full_unstemmed |
A maximum power loading factor (MPLF) control strategy for distributed secondary frequency regulation of islanded microgrid |
| title_sort |
maximum power loading factor (mplf) control strategy for distributed secondary frequency regulation of islanded microgrid |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142084 |
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1681057589282996224 |