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引用次数: 1
摘要
具有竞争力的价格和环保的运行特点使太阳能光伏电站成为现代电力系统发电组合的有力候选人。因此,建设基于光伏的微电网在经济上是可行的,它可以将现有的集中式国家电网转变为分散式电网,从而提高电网的弹性,减少线损。在本研究中,我们考察了不同规模的光伏电站与蒙古阿尔泰乌里亚斯泰能源系统(AUES)的整合情况,以评估利用现有水电站(HPP)和拟建光伏电站发展微电网的可能性。结果表明,从能源管理的角度来看,10 MW容量的光伏电站具有良好的HPP和负荷性能。采用DIGSilent Power Factory进行准动态仿真。
Toward a Resilient Network by Optimal Sizing of Large Scale PV Power Plant in Microgrid-Case Study of Mongolia
Competitive price and eco-friendly operation features make solar photovoltaic (PV) plant a strong candidate for a modern power system’s generation mix. Therefore, it has been economically feasible to build PV based microgrids, which can convert current centralized national grids into decentralized segments so that resiliency of grid will improve and line loss will decrease. In this study, we examined integration scenarios of different size of PV plants into Altai Uliastai Energy System (AUES) of Mongolia in order to evaluate the possibility of developing microgrid using current hydropower plant (HPP) and proposed PV plant. Results showed that a PV plant with 10 MW capacity would perform well with HPP and load from energy management point of view. DIGSilent Power Factory has been used for quasi-dynamic simulation.
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