A novel virtual synchronous port control strategy for microgrid cluster

• Published in: IET renewable power generation Vol. 18; no. 8; pp. 1468 - 1481
• Main Authors: Shi, HongTao, Chang, Jiaming, Li, Yuchao, Chen, Tingting, Dong, Xiaolin, He, Zhuoheng
• Format: Journal Article
• Language: English
• Published: Wiley 01.06.2024
• Subjects: AC–DC power convertor; DC–AC power convertor; distributed power generation; invertors; power electronics; rectifiers; renewable energy sources
• ISSN: 1752-1416; 1752-1424
• DOI: 10.1049/rpg2.12987

Interconnecting multiple microgrids (MGs) to form a MG cluster (MGC) is significant to improve the MG power supply reliability and increase the new energy accommodation capacity. However, for the traditional MGC in complex operational conditions, the following technologies need to be further researched, such as mutual power support among MGs, voltage support and power quality improvement and so on. Focusing on the above problems, a novel virtual synchronous port control (VSPC) strategy for MGC is proposed. Firstly, a multi‐port soft open point (SOP) is used to interconnect each sub‐MG in the MGC, to achieve a better flexible interconnection among sub‐MGs. Secondly, on this basis, the VSPC strategy is proposed. By adopting the DC voltage control of multi‐port SOP and the virtual synchronisation control of interconnecting ports, multiple voltage source converters (VSCs) are cluster controlled to provide the sub‐MGs with superordinate ports with virtual synchronisation characteristics, which ensures the dynamic balance of the power inside the MGC and achieves better voltage and frequency support capability. Finally, the example results verify the feasibility and effectiveness of the proposed VSPC strategy.