Optimal planning and operation of dispatchable active power resources for islanded multi-microgrids under decentralised collaborative dispatch framework

• Published in: IET generation, transmission & distribution Vol. 14; no. 3; pp. 408 - 422
• Main Authors: Liu, Zehuai, Yi, Yingqi, Yang, Jiahao, Tang, Wenhu, Zhang, Yongjun, Xie, Xiaoyu, Ji, Tianyao
• Format: Journal Article
• Language: English
• Published: The Institution of Engineering and Technology 14.02.2020
• Subjects: bilevel model; DAPR configuration optimisation; decentralised collaborative dispatch framework; dispatch frameworks; dispatch model; dispatchable active power resources; dispatchable units; distributed power generation; genetic algorithms; IMMG; islanded multimicrogrids; multiagent consensus algorithm; multiple population genetic algorithm; multi‐agent systems; optimal planning; power engineering computing; power generation dispatch; power generation planning; priority‐based collaborative dispatch strategy; real‐time dispatch requirement; Research Article; total power command; optimal planning; multi-agent systems; power generation planning; dispatchable units; dispatchable active power resources; bilevel model; distributed power generation; genetic algorithms; power engineering computing; real-time dispatch requirement; total power command; power generation dispatch; decentralised collaborative dispatch framework; multiagent consensus algorithm; DAPR configuration optimisation; islanded multimicrogrids; dispatch frameworks; priority-based collaborative dispatch strategy; IMMG; multiple population genetic algorithm; dispatch model
• ISSN: 1751-8687; 1751-8695; 1751-8695
• DOI: 10.1049/iet-gtd.2019.0796

As an islanded multi-microgrid (IMMG) receives little support from the main network, it is necessary to develop new dispatch frameworks to fulfil its real-time dispatch requirement. Hence, a decentralised collaborative dispatch framework of IMMG based on multi-agent consensus algorithm is proposed. In the framework, the ttal power command of IMMG can be optimally allocated among all the microgrids (MGs) based on consensus algorithm. Then the power command of each MG can be efficiently allocated among all the dispatchable units based on the proposed priority-based collaborative dispatch strategy. Based on the decentralised collaborative dispatch framework, in order to optimise the planning and operation of dispatchable active power resources (DAPRs), on one hand, a bi-level model that couples the planning and operation problems of an IMMG is established to optimise the configuration of DAPR; on the other hand, more detailed models are proposed for the regulation costs of various dispatchable units, which is an improvement over the existing regulation cost model. By considering the two aspects, the consensus algorithm is embedded in multiple population genetic algorithm to solve the bi-level model. Case studies are conducted on an IMMG consisting of three MGs to examine the effectiveness of the proposed planning and dispatch model.