Abstract:The appropriate size of energy storage is one of the critical elements to improve the reliability and economy of power supplies for remote microgrid with renewable generations.In this paper,a power allocation strategy coordinating the renewable energy,energy storage,and load is presented considering the time-shifting load of mining underwater within the microgrid.A model of sizing the energy storage is developed considering the unfixed cycle life of battery storage.The proposed model is carried out on a typical wind/photovoltaic hybrid system in northwest China with load of mining underwater.The results demonstrate that the proposed model is effective
娄素华,罗鹏,吴耀武,张立静. 计及负荷可控性的微网储能容量优化配置[J]. 电工技术学报, 2016, 31(21): 39-45.
Lou Suhua,Luo Peng,Wu Yaowu,Zhang Lijing. Sizing of Energy Storage in Microgrid with Controllable Load. Transactions of China Electrotechnical Society, 2016, 31(21): 39-45.
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2016, Vol. 31 
