Research on the operation of integrated energy microgrid based on cluster power sharing mechanism

IF 3.2 Q2 AUTOMATION & CONTROL SYSTEMS Systems Science & Control Engineering Pub Date : 2023-11-27 DOI:10.1080/21642583.2023.2233535
Xiaowei Fan, Jianfeng Xiao, Haifeng Yang, Long Yao, Jiaxin Luo, Wen Jiang, Piao Du, Decheng Cao
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Abstract

This paper proposes a Nash bargaining cooperative game model for a microgrid cluster system with double re-energy-load delay considering electricity, heat and gas multi-energy synergies. With the minimization of the operating cost of each microgrid as the objective function, a low-carbon operation model of a multi-energy complementary integrated energy microgrid considering fuzzy opportunity constraints is developed, an optimal operation mechanism including carbon quota and carbon trading is assessed, and a carbon capture system and an electricity-gas conversion device are added to the improved cogeneration unit model. Source-load uncertainty in microgrids is described in terms of new fuzzy parameters of new energy and undefined parameters of load demand. Each microgrid plays a second game with the marginal contribution rate and carbon trading cost rate as the bargaining power. The model is solved in a distributed manner using the ADMM-RGE algorithm. Finally, the simulation results show that the proposed multi-microgrid power-sharing way maximizes the benefits of microgrid alliances; the cooperative help of microgrid alliances is pretty distributed according to the size of each microgrid's energy contribution; carbon capture joint power-gas systems and energy sharing methods between microgrids can effectively reduce carbon emissions during microgrid operation.
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基于集群电力共享机制的综合能源微电网运行研究
本文提出了考虑电、热、气多能源协同效应的双重载延迟微电网集群系统纳什讨价还价合作博弈模型。以各微电网运行成本最小化为目标函数,建立了考虑模糊机会约束的多能互补综合能源微电网低碳运行模型,评估了包括碳配额和碳交易在内的最优运行机制,并在改进的热电联产机组模型中加入了碳捕集系统和电-气转换装置。微电网中的源-负载不确定性是通过新能源的新模糊参数和未定义的负载需求参数来描述的。每个微电网以边际贡献率和碳交易成本率作为讨价还价能力,进行第二次博弈。该模型采用 ADMM-RGE 算法以分布式方式求解。最后,仿真结果表明,所提出的多微网电力共享方式能使微网联盟的利益最大化;微网联盟的合作帮助能根据每个微网的能源贡献大小进行合理分配;微网之间的碳捕获联合电力-燃气系统和能源共享方式能有效减少微网运行过程中的碳排放。
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来源期刊
Systems Science & Control Engineering
Systems Science & Control Engineering AUTOMATION & CONTROL SYSTEMS-
CiteScore
9.50
自引率
2.40%
发文量
70
审稿时长
29 weeks
期刊介绍: Systems Science & Control Engineering is a world-leading fully open access journal covering all areas of theoretical and applied systems science and control engineering. The journal encourages the submission of original articles, reviews and short communications in areas including, but not limited to: · artificial intelligence · complex systems · complex networks · control theory · control applications · cybernetics · dynamical systems theory · operations research · systems biology · systems dynamics · systems ecology · systems engineering · systems psychology · systems theory
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