期刊
IEEE TRANSACTIONS ON POWER SYSTEMS
卷 34, 期 3, 页码 1869-1880出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPWRS.2018.2883407
关键词
Consensus; distributed control; frequency regulation; multi-microgrid system; optimal tie-line power flow
资金
- National Nature Science Foundation of China (NSFC) [51807120, 51477103]
- Guangdong Natural Science Foundation [2015A010106017, 2016KZDXM007]
- NSF of SZU Project [2018033]
- NSFC [U1766206, 51707069]
- State Key Laboratory of Synthetical Automation for Process Industries [PAL-N201806]
- Energy Innovation Program Office through the National Research Foundation
- Singapore Energy Market Authority [NRF2014EWT-EIRP002-005]
In a multi-microgrid system (MMG), the microgrids (MGs) are normally managed by independent operators. Distributed energy trading/scheduling schemes via interactions of these MG operators have been extensively investigated. How to coordinate theseMGs to implement the acquired optimal schedule in the real time under constant load fluctuation while guaranteeing operational stability is seldom reported. Due to the intrinsic advantages of scalability, robustness, and fast response in comparison to the centralized scheme, a multi-agent based distributed optimal tie-line power flow control strategy is proposed to achieve this objective, which is facilitated by a regional communication network overlapping each MG and distributed sensors monitoring the tieline power flows. When theMMGis operated in the grid-connected mode, the proposed scheme can maintain the scheduled tie-line power flows among the MGs in the presence of any disturbance by adjusting the real-time power outputs of the distributed energy resources proportionally. When the MMG is islanded, frequency recovery can be further achieved via a local frequency feedback mechanism. Convergence of the proposed approach is analytically proved. Simulation results in a four-MG system modified from the IEEE 34-bus test feeder system validate the effectiveness and efficiency of the proposed approach in both grid-connected and islanded modes.
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