考虑共享储能和需求响应不确定性的多园区综合能源系统分布式稳健优化方法

IF 3.3 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Zechen Wang, Zhao Liu, Yuchong Huo
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引用次数: 0

摘要

为提高多园区综合能源系统(MPIES)的经济效益和可再生能源集成能力,并解决现有研究中对需求响应不确定性考虑不足的问题,本文提出了一种考虑共享储能和需求响应不确定性的多园区综合能源系统分布式稳健优化方法。首先,建立了共享能源系统和需求响应模型。在这些模型的基础上,为 MPIES 开发了一个确定性优化调度模型,旨在最大限度地降低系统成本,同时考虑电网功率平衡等约束条件。为了解决需求响应中的不确定性问题,本文采用了区间-2 型模糊理论来构建不确定性集,并考虑了系统可靠性约束。然后将原始优化问题转化为等效鲁棒对应模型,并通过参数域分解方法获得最优分布式鲁棒解决方案。最后,利用 IEEE 33 总线系统验证了所提出的方法。结果表明,单独考虑共享储能和需求响应可将系统总成本分别降低 4.86 % 和 26.46 %。在考虑需求响应的不确定性后,系统总成本仅略微增加了 4.36%,但这提高了系统的鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A distributionally robust optimization approach of multi-park integrated energy systems considering shared energy storage and Uncertainty of Demand Response

A distributionally robust optimization approach of multi-park integrated energy systems considering shared energy storage and Uncertainty of Demand Response
To enhance the economic efficiency and renewable energy integration capacity of multi-park integrated energy systems (MPIES) and address the issue of insufficient consideration of demand response uncertainty in existing studies, this paper proposes a distributionally robust optimization approach for multi-park integrated energy systems, considering shared energy storage and the uncertainty of demand response. First, models of the shared energy system and demand response are established. Based on these models, a deterministic optimization scheduling model for MPIES is developed, aiming to minimize system costs while considering constraints such as grid power balance. To address uncertainty in demand response, this paper employs Interval Type-2 Fuzzy Theory to construct uncertainty sets and considers system reliability constraints. The original optimization problem is then transformed into an equivalent robust counterpart model, and the optimal distributionally robust solution is obtained through parameter domain decomposition methods. Finally, the proposed method is validated using the IEEE 33-bus system. The results show that considering shared energy storage and demand response individually can reduce total system costs by 4.86 % and 26.46 %, respectively. After accounting for the uncertainty in demand response, the total system cost increases only slightly by 4.36 %, but this improves the system's robustness.
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来源期刊
Electric Power Systems Research
Electric Power Systems Research 工程技术-工程:电子与电气
CiteScore
7.50
自引率
17.90%
发文量
963
审稿时长
3.8 months
期刊介绍: Electric Power Systems Research is an international medium for the publication of original papers concerned with the generation, transmission, distribution and utilization of electrical energy. The journal aims at presenting important results of work in this field, whether in the form of applied research, development of new procedures or components, orginal application of existing knowledge or new designapproaches. The scope of Electric Power Systems Research is broad, encompassing all aspects of electric power systems. The following list of topics is not intended to be exhaustive, but rather to indicate topics that fall within the journal purview. • Generation techniques ranging from advances in conventional electromechanical methods, through nuclear power generation, to renewable energy generation. • Transmission, spanning the broad area from UHV (ac and dc) to network operation and protection, line routing and design. • Substation work: equipment design, protection and control systems. • Distribution techniques, equipment development, and smart grids. • The utilization area from energy efficiency to distributed load levelling techniques. • Systems studies including control techniques, planning, optimization methods, stability, security assessment and insulation coordination.
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