Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids
The paralleled BILCs of the HMG provide a flexible and reliable power interaction way between ac and dc subgrids with high power density. A DUC is proposed for BILCs to achieve both resilience reinforcement and global economic operation of the HMG. For DGs, the fac-λac and vdc-λdc economic droop con...
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sg-ntu-dr.10356-1727442023-12-18T08:32:33Z Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids Li, Xiangke Wang, Minghao Dong, Chaoyu Jiang, Wentao Xu, Zhao Wu, Xiaohua Jia, Hongjie School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Electrical and electronic engineering Distributed Unified Control Economic Operation The paralleled BILCs of the HMG provide a flexible and reliable power interaction way between ac and dc subgrids with high power density. A DUC is proposed for BILCs to achieve both resilience reinforcement and global economic operation of the HMG. For DGs, the fac-λac and vdc-λdc economic droop controls are employed for ac DGs and dc DGs to decrease the individual subgrid's generation expense by equaling DGs' incremental expenses. For BILCs, the normalized ac subgrid's frequency and dc subgrid's voltage are coordinated to achieve the economic power interaction, which further decreases the total generation expense. Besides economic operation, the proposed DUC is capable of adopting different microgrid operation modes into a unified control structure without any mode switching. Paralleled BILCs are managed to reinforce the system resilience by supporting the dc voltage or ac voltage once all dc or ac DGs fail. In addition, the proposed DUC enables BILCs with plug-and-play characteristics, resistance to the maximum acceptable communication delay, and the communication disruption robustness. The corresponding hardware-in-the-loop results verify the effectiveness of the proposed control strategy. This work was supported in part by the joint project of the National Natural Science Foundation of China and the Engineering and Physical Sciences Research Council, U.K., under Grants 52061635103, 52207224, and EP/T021969/1. 2023-12-18T08:32:33Z 2023-12-18T08:32:33Z 2023 Journal Article Li, X., Wang, M., Dong, C., Jiang, W., Xu, Z., Wu, X. & Jia, H. (2023). Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids. IEEE Transactions On Power Electronics, 38(7), 9077-9089. https://dx.doi.org/10.1109/TPEL.2023.3259969 0885-8993 https://hdl.handle.net/10356/172744 10.1109/TPEL.2023.3259969 2-s2.0-85151572183 7 38 9077 9089 en IEEE Transactions on Power Electronics © 2023 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Distributed Unified Control Economic Operation |
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Engineering::Electrical and electronic engineering Distributed Unified Control Economic Operation Li, Xiangke Wang, Minghao Dong, Chaoyu Jiang, Wentao Xu, Zhao Wu, Xiaohua Jia, Hongjie Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| description |
The paralleled BILCs of the HMG provide a flexible and reliable power interaction way between ac and dc subgrids with high power density. A DUC is proposed for BILCs to achieve both resilience reinforcement and global economic operation of the HMG. For DGs, the fac-λac and vdc-λdc economic droop controls are employed for ac DGs and dc DGs to decrease the individual subgrid's generation expense by equaling DGs' incremental expenses. For BILCs, the normalized ac subgrid's frequency and dc subgrid's voltage are coordinated to achieve the economic power interaction, which further decreases the total generation expense. Besides economic operation, the proposed DUC is capable of adopting different microgrid operation modes into a unified control structure without any mode switching. Paralleled BILCs are managed to reinforce the system resilience by supporting the dc voltage or ac voltage once all dc or ac DGs fail. In addition, the proposed DUC enables BILCs with plug-and-play characteristics, resistance to the maximum acceptable communication delay, and the communication disruption robustness. The corresponding hardware-in-the-loop results verify the effectiveness of the proposed control strategy. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Li, Xiangke Wang, Minghao Dong, Chaoyu Jiang, Wentao Xu, Zhao Wu, Xiaohua Jia, Hongjie |
| format |
Article |
| author |
Li, Xiangke Wang, Minghao Dong, Chaoyu Jiang, Wentao Xu, Zhao Wu, Xiaohua Jia, Hongjie |
| author_sort |
Li, Xiangke |
| title |
Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| title_short |
Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| title_full |
Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| title_fullStr |
Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| title_full_unstemmed |
Distributed unified control for global economic operation and resilience reinforcement of hybrid AC-DC microgrids |
| title_sort |
distributed unified control for global economic operation and resilience reinforcement of hybrid ac-dc microgrids |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172744 |
| _version_ |
1787136789997158400 |