综合能源系统与储能
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摘要
随着化石能源的过度开发利用和国际能源合作的进一步加强,综合能源系统作为新型一体化能源系统越来越受到重视,储能作为综合能源系统中的关键环节也成为学术研究重点。本文首先以现今能源发展问题为起点引出了综合能源系统并分析了其现实意义。接着归纳出综合能源系统的内涵"多能互补、协调优化",剖析了综合能源系统架构,将其分为物理层、信息层和系统层。文章最后分析了储能在综合能源系统的定位,提出储能在综合能源系统不同层级间起着缓冲器、聚合器、稳定器的作用。
With the over-exploitation and utilization of fossil energy and the further strengthening of international energy cooperation, more and more attention has been paid to integrated energy system as a new type of integrated energy system, and energy storage as a key link in integrated energy system has become the focus of academic research.Firstly, starting from the current energy development issues, this paper introduces the integrated energy system and analyses its practical significance.Secondly, the connotation of integrated energy system is summarized as "multi-energy complementarity, coordination and optimization", and the structure of integrated energy system is analyzed, which is divided into physical layer, information layer and system layer.Finally, the paper analyses the location of energy storage system, and puts forward that energy storage plays the role of buffer, aggregator and stabilizer between different levels of integrated energy system.
With the over-exploitation and utilization of fossil energy and the further strengthening of international energy cooperation, more and more attention has been paid to integrated energy system as a new type of integrated energy system, and energy storage as a key link in integrated energy system has become the focus of academic research.Firstly, starting from the current energy development issues, this paper introduces the integrated energy system and analyses its practical significance.Secondly, the connotation of integrated energy system is summarized as "multi-energy complementarity, coordination and optimization", and the structure of integrated energy system is analyzed, which is divided into physical layer, information layer and system layer.Finally, the paper analyses the location of energy storage system, and puts forward that energy storage plays the role of buffer, aggregator and stabilizer between different levels of integrated energy system.
引文
[1]孙宏斌,郭庆来,潘昭光,王剑辉.能源互联网:驱动力、评述与展望[J].电网技术,2015,39(11):3005-3013.
[2]周孝信,曾嵘,高峰,屈鲁.能源互联网的发展现状与展望[J].中国科学:信息科学,2017,47(02):149-170.
[3]周孝信.构建新一代能源系统的设想[J].陕西电力,2015,43(09):1-4.
[4]门向阳,曹军,王泽森,杜文娟.能源互联微网型多能互补系统的构建与储能模式分析[J].中国电机工程学报,2018,38(19):5727-5737+5929.
[5]赵曰浩,彭克,徐丙垠,赵学深,张聪.综合能源系统分层分布式协调控制方法[J].电力自动化设备,2017,37(06):253-259.
[6]刘涤尘,马恒瑞,王波,高文忠,王骏,闫秉科.含冷热电联供及储能的区域综合能源系统运行优化[J].电力系统自动化,2018,42(04):113-120+141.
[7]李建林,田立亭,来小康.能源互联网背景下的电力储能技术展望[J].电力系统自动化,2015,39(23):15-25.
[8]仅一,杜秋.储能是综合能源系统的“心脏”[J].国际融资,2017(10):69-71.
[9]王仕俊,平常,薛国斌.考虑共享储能的社区综合能源系统协同优化研究[J].中国电力,2018,51(08):77-84.
[10]曾鸣,杨雍琦,向红伟,王丽华,曾博.兼容需求侧资源的“源-网-荷-储”协调优化调度模型[J].电力自动化设备,2016,36(02):102-111.
[2]周孝信,曾嵘,高峰,屈鲁.能源互联网的发展现状与展望[J].中国科学:信息科学,2017,47(02):149-170.
[3]周孝信.构建新一代能源系统的设想[J].陕西电力,2015,43(09):1-4.
[4]门向阳,曹军,王泽森,杜文娟.能源互联微网型多能互补系统的构建与储能模式分析[J].中国电机工程学报,2018,38(19):5727-5737+5929.
[5]赵曰浩,彭克,徐丙垠,赵学深,张聪.综合能源系统分层分布式协调控制方法[J].电力自动化设备,2017,37(06):253-259.
[6]刘涤尘,马恒瑞,王波,高文忠,王骏,闫秉科.含冷热电联供及储能的区域综合能源系统运行优化[J].电力系统自动化,2018,42(04):113-120+141.
[7]李建林,田立亭,来小康.能源互联网背景下的电力储能技术展望[J].电力系统自动化,2015,39(23):15-25.
[8]仅一,杜秋.储能是综合能源系统的“心脏”[J].国际融资,2017(10):69-71.
[9]王仕俊,平常,薛国斌.考虑共享储能的社区综合能源系统协同优化研究[J].中国电力,2018,51(08):77-84.
[10]曾鸣,杨雍琦,向红伟,王丽华,曾博.兼容需求侧资源的“源-网-荷-储”协调优化调度模型[J].电力自动化设备,2016,36(02):102-111.