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A Holistic Approach to the Integration of Battery Energy Storage Systems in Island Electric Grids With High Wind Penetration

机译:高风洞率岛式电网中电池储能系统集成的整体方法

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摘要

This paper details an optimization tool for the planning and operation of battery energy storage systems (BESS) in island power systems with high wind penetration. The selection of the most suitable battery technology, its sizing and location is achieved through a comparative analysis of the operational and capital expenditure of the islanded system during the planning horizon with and without the deployment of the BESS solution. An operational algorithm is developed consisting on sequentially closer to time of delivery optimization stages in order to provide a robust quantification of the technical, environmental, and economic impacts of the battery system. The developed methodology is assessed and validated in a real-world case study of a Portuguese island with a high share of wind generation. Results show that BESS enhances the flexibility of the islanded power system thus ensuring a higher accommodation of wind energy with significant economic benefits.
机译:本文详细介绍了一种用于规划和运行具有高风速的岛屿电力系统中的电池储能系统(BESS)的优化工具。通过比较分析在规划范围内有无BESS解决方案的情况下孤岛系统的运营和资本支出,可以选择最合适的电池技术,尺寸和位置。开发了一种运算算法,该算法包括依次更接近交付时间优化阶段,以便对电池系统的技术,环境和经济影响进行可靠的量化。在一个风力发电比例很高的葡萄牙岛屿的实际案例研究中,对开发的方法进行了评估和验证。结果表明,BESS增强了孤岛电力系统的灵活性,从而确保了更高的风能适应性,并具有显着的经济效益。

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