电动汽车光伏充电站的多目标优化调度方法

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摘要电动汽车光伏充电站是实现电动汽车对可再生能源就地消纳利用的典型集成方式,本文针对光伏充电站运行中的优化调度问题展开研究。介绍了光伏充电站的典型结构、组成单元功能及基本运行策略。综合分析电动汽车充电、光伏发电及储能系统等多方面的运行特性,提出考虑购电费用和蓄电池循环电量的多目标优化调度数学模型;构造含电动汽车充电时间、蓄电池充放电功率及电池荷电状态（SOC）范围、配电网供电功率、系统功率平衡的约束条件;在此基础上,通过非支配排序遗传算法(NSGA)-II算法对多目标优化模型进行求解。结合具体算例,在不同日照和蓄电池初始SOC条件下,获得多组Pareto最优解集;从中选取典型调度方案,分析各组件功率调节的合理性;最后,通过与即时充电方案的比较,优化结果在购电费用和蓄电池循环电量上表现出明显的优势。本文所提的优化调度方法,将为示范城市充电基础设施的运行提供理论依据和技术支撑。

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	路欣怡
	刘念
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	张建华
	肖湘宁

关键词 ：电动汽车充电站, 光伏, 储能, 优化调度

Abstract：Photovoltaic(PV)-assisted charging station for electric vehicles(EVs) is a typical integration of consuming renewable resources locally. Research on multi-objective optimal scheduling for PV-assisted charging station of electric vehicles is proposed in this paper. It introduces the typical structure of PV-assisted charging station and function of each component as well as the operation strategy. Based on analysis of the operational characteristics of PV, storage battery bank and EV charging unit, mathematical model of the multi-objective optimization for scheduling, which takes the cost of electricity purchasing and energy circulation of storage battery bank as objective functions, is built and then solved by non-dominated sorting genetic algorithm(NSGA)-II. Constraints including EV charging time, the range of the charging/discharging power and SOC(state of charge) of the storage battery bank, power supply rate of distribution network and system power balance are considered in the model. Combined with a case that contains different solar radiations and initial SOC of storage batteries, several Pareto solutions are obtained and typical dispatching scheme is selected to verify the model’s rationality by analyzing power flow of each component. Compared with direct charging, the optimal scheme is superior in reducing cost and energy circulation. Optimization method for scheduling put forward in this paper provides theoretical and technical support for city charging infrastructure demonstration.

Key words： Charging station of EVs photovoltaic storage battery bank optimal scheduling

收稿日期: 2013-07-18 出版日期: 2014-11-05

PACS:	U469.72
	TM734

基金资助:国家自然科学基金（51277067）和首都科技条件平台项目（Z131110000613053）资助

作者简介: 路欣怡女,1991年生,硕士研究生,主要研究方向为微电网与电动汽车；刘念男,1981年生,博士,副教授,主要研究方向为新能源与智能配用电系统、电力系统信息安全等。（通信作者）

引用本文:

路欣怡, 刘念, 陈征, 张建华, 肖湘宁. 电动汽车光伏充电站的多目标优化调度方法[J]. 电工技术学报, 2014, 29(8): 46-56. Lu Xinyi, Liu Nian, Chen Zheng, Zhang Jianhua, Xiao Xiangning. Multi-objective Optimal Scheduling for PV-Assisted Charging Station of Electric Vehicles. Transactions of China Electrotechnical Society, 2014, 29(8): 46-56.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2014/V29/I8/46

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