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考虑多能互补的区域综合能源系统多种储能优化配置
引用本文:熊文,刘育权,苏万煌,郝然,王玥,艾芊. 考虑多能互补的区域综合能源系统多种储能优化配置[J]. 电力自动化设备, 2019, 39(1)
作者姓名:熊文  刘育权  苏万煌  郝然  王玥  艾芊
作者单位:南方电网广州供电公司,广东广州,510000;上海交通大学电子信息与电气工程学院,上海,200240
基金项目:国家重点研发计划项目(2016YFB0901304)
摘    要:在区域综合能源系统中配置多种储能装置可提高系统的经济效益,是区域综合能源系统规划的重要研究方向。基于区域综合能源系统的基础架构和模型,研究了蓄冷、储热、储电和混合储能在冷热电联供(CCHP)机组和电制冷等设备多能互补协同运行情况下的盈利策略,讨论了系统配置不同储能的经济性和可行性,建立了全寿命周期的冷热电储能调度规划双层优化模型,并利用确定性迭代算法进行求解。针对某实际区域综合能源系统的多个供能季不同日负荷曲线,应用双层优化模型求解运行调度方案和储能配置容量。算例结果表明:配置蓄冷和储热在多能互补协同运行系统中有较大的盈利空间,而配置储电的利润空间较小,且考虑多能互补的混合储能方法可以进一步挖掘系统的盈利能力。

关 键 词:冷热电储能  混合储能  双层优化  区域综合能源系统  多能互补  优化配置

Optimal configuration of multi-energy storage in regional integrated energy system considering multi-energy complementation
XIONG Wen,LIU Yuquan,SU Wanhuang,HAO Ran,WANG Yue and AI Qian. Optimal configuration of multi-energy storage in regional integrated energy system considering multi-energy complementation[J]. Electric Power Automation Equipment, 2019, 39(1)
Authors:XIONG Wen  LIU Yuquan  SU Wanhuang  HAO Ran  WANG Yue  AI Qian
Affiliation:Guangzhou Power Supply Company of China Southern Grid, Guangzhou 510000, China,Guangzhou Power Supply Company of China Southern Grid, Guangzhou 510000, China,Guangzhou Power Supply Company of China Southern Grid, Guangzhou 510000, China,School of Electrical and Information Engineering, Shanghai Jiao Tong University, Shanghai 200240, China,School of Electrical and Information Engineering, Shanghai Jiao Tong University, Shanghai 200240, China and School of Electrical and Information Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
Abstract:The configuration of multi-energy storage devices in the RIES(Regional Integrated Energy System) can greatly improve the economic benefits of the system and it is an important research direction of RIES planning. Based on the infrastructure and model of RIES, the profit strategies of cooling storage, heating storage, power energy storage and hybrid energy storage in the multi-energy complementation synergistic operation of CCHP(Combined Cooling, Heating and Power) units and electric refrigeration equipment are studied, the economy and feasibility of different energy storage configurations are discussed. A bi-level optimization model for life-cycle dispatching planning of coo-ling-heating-power energy storage is established, which is solved by the deterministic iterative algorithm. Based on the different daily load curves in multiple power-supply seasons of an actual RIES, the proposed bi-level optimization model is used to solve the operation scheduling scheme and the capacity configuration of energy storages. Simulative results show that the configuration of cooling storage and heating storage in the RIES has a greater profit margin, while the configuration of power energy storage has a smaller profit margin and the configuration of hybrid energy storage can further excavate the profitability of the system.
Keywords:cooling-heating-power energy storage   hybrid energy storage   bi-level optimization   regional integrated energy system   multi-energy complementation   optimal configuration
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