基于储能云平台架构的分布式储能节点控制器与控制策略研究
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摘要
基于储能云平台架构,考虑未来客户侧广泛配置储能装置以及电动汽车规模化应用。研制客户侧储能即插即用装置和互联网化的储能云平台,构建适合普通客户的灵活互动的智能用电新模式。在感知电网负荷的基础上,针对分布式储能装置运行状态及使用寿命,选取综合最优控制方案,降低客户侧储能装置运行成本。最后通过苏州客户侧分布式储能示范项目验证系统以及控制策略的有效性。
This paper develops the plug and play device for customer side energy storage and the internet-based energy storage cloud platform,so as to build a new intelligent power consumption mode with flexible interaction suitable for ordinary customers.Based on the network load,and according to the operating status and service life of the distributed energy storage,it selects the optimal integrated control scheme to reduce the operating cost of customer side energy storage.Finally,a demonstration project verified the effectiveness of the system and its control strategy.
This paper develops the plug and play device for customer side energy storage and the internet-based energy storage cloud platform,so as to build a new intelligent power consumption mode with flexible interaction suitable for ordinary customers.Based on the network load,and according to the operating status and service life of the distributed energy storage,it selects the optimal integrated control scheme to reduce the operating cost of customer side energy storage.Finally,a demonstration project verified the effectiveness of the system and its control strategy.
引文
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[2] 苏粟,蒋小超,王玮,等.计及电动汽车和光伏-储能的微网能量优化管理[J].电力系统自动化,2015,39(25):36-43.
[3] CHENG Y,TABRIZI M,SAHNI M,et al.Dynamic available AGC based approach for enhancing utility scale energy storage performance[J].IEEE Transactions on Smart Grid,2014,5(2):1070-1078.
[4] RAHBARI ASR,ZHANG Y,CHOW M Y.Consensus-based distributed scheduling for cooperative operation of distributed energy resources and storage devices in smart grids[J].IET Generation,Transmission &Distribution,2016,10(5):1268-1277.
[5] TAN X,WU Y,TSANG H K.Pareto optimal operation of distributed battery energy storage systems for energy arbitrage under dynamic pricing[J].IEEE Transactions on Parallel and Distributed Systems,2016,27(7):2103-2115.
[6] 鲍谚,贾利民,姜久春,等.电动汽车移动储能辅助频率控制策略的研究[J].电工技术学报,2015,30(11):115-126.
[7] 苏峰,张贲,史沛然,等.考虑调频绩效机制下储能在多市场中的最优投标策略研究[J].电力建设,2016,37(3):71-75.
[8] 常方宇,黄梅,张维戈.分时充电价格下电动汽车有序充电引导策略[J].电网技术,2016,40(9):2609-2615.
[9] NASROLAHPOUR E,ZAREIPOUR H,ROSEHART W D,et al.Bidding strategy for an energy storage facility[C]//Power Systems Computation Conference(PSCC),2016.IEEE,2016:1-7.
[10] HARTWIG K,KOCKAR I.Impact of strategic behavior and ownership of energy storage on provision of flexibility[J].IEEE Transactions on Sustainable Energy,2016,7(2):744-754.
[11] LUBURI Z,PANDZRA H,PLAVSRA T.Comparison of energy storage operation in vertically integrated and market-based power system[C]// IEEE,International Conference on Environment and Electrical Engineering.IEEE,2016:1-6.
[12] BYRNE C,VERBIC G.Feasibility of residential battery storage for energy arbitrage[C]//Power Engineering Conference(UPEC),2013 Australasian Universities.IEEE,2013:1-7.
[13] ERDINC O,PATERAKIS N G,MENDES T D P,et al.Smart household operation considering bi-directional EV and ESS utilization by real-time pricing-based DR[J].IEEE Transactions on Smart Grid,2015,6(3):1281-1291.
[14] 张永旺,赵伟,肖勇,等.基于分层架构的大规模电动汽车有序充电仿真平台[J].电网技术,2015,39(1):55-62.