《电力自动化设备》

引用本文:	刘向军,叶秋子,曾璐琨,李彬,孙毅,杨斌,马永红.CPS互动架构下的聚合电热水器消纳风能策略[J].电力自动化设备,2019,39(7):
	LIU Xiangjun,YE Qiuzi,ZENG Lukun,LI Bin,SUN Yi,YANG Bin,MA Yonghong.Wind power accommodation strategy of aggregated electric water heater based on CPS interaction frame[J].Electric Power Automation Equipment,2019,39(7):

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CPS互动架构下的聚合电热水器消纳风能策略
刘向军¹, 叶秋子¹, 曾璐琨¹, 李彬¹, 孙毅¹, 杨斌², 马永红¹
1.华北电力大学电气与电子工程学院，北京 102206;2.国网江苏省电力公司，江苏南京 210000

摘要:

调控聚合温控负荷可高效地消纳可再生能源。针对聚合智能温控负荷群消纳可再生能源场景中的用户使用舒适度及能源消纳效率问题，在基于信息物理系统的可再生能源消纳互动架构下，提出典型温控负荷——电热水器的映射模型。在考虑用户行为信息感知的前提下，提出基于加热-剩余时间比(HRTR)的电热水器群分区方法，以及考虑分区差异性的可再生能源消纳控制策略。不同控制策略的仿真对比表明所提策略能更好地消纳可再生能源且能保证用户的高使用舒适度。

关键词: CPS 可再生能源消纳温控负荷负荷控制

DOI：10.16081/j.issn.1006-6047.2019.07.002

分类号:TM73;TM614

基金项目:国家重点研发计划项目(2016YFB0901104)；国家自然科学基金资助项目(51307051)；中央高校基本科研业务费专项资金资助项目(2014ZP03,2015ZD01)；国网公司科技项目

Wind power accommodation strategy of aggregated electric water heater based on CPS interaction frame

LIU Xiangjun¹, YE Qiuzi¹, ZENG Lukun¹, LI Bin¹, SUN Yi¹, YANG Bin², MA Yonghong¹

1.School of Electrical and Electronic Engineering, North China Electric Power University, Beijing 102206, China;2.State Grid Jiangsu Electric Power Company, Nanjing 210000, China

Abstract:

It can effectively accommodate renewable energy by controlling the aggregated thermostatically controlled loads. Aiming at the problem of user comfort and energy consumption efficiency in the scene of smart aggregated thermostatically controlled loads accommodating renewable energy, a mapping model of typical thermostatically controlled load, i. e. EWH(Electric Water Heater) is proposed under the interaction frame of renewable energy accommodation based on cyber-physical system. On the premise of considering the perception of user behaviour information, a partition method of EWH group based on HRTR(Heat-Residual Time Ratio) and a control strategy of renewable energy accommodation with the consideration of partition difference are proposed. The simulation and comparison of different control strategies show that the proposed strategy can better accommodate renewable energy and ensure high user comfort.

Key words: CPS renewable energy accommodation thermostatically controlled load load control

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