Massive Integration of Wind Power at Distribution Level Supported by Battery Energy Storage Systems

2019 IEEE Milan PowerTech Pub Date : 2019-06-23 DOI:10.1109/PTC.2019.8810509

J. Lujano-Rojas, J. A. Domínguez-Navarro, J. Yusta, G. Osório, M. Lotfi, C. João P. S.

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Abstract

Integration of renewable generation in distribution systems aims to reduce consumption of energy from conventional sources such as coal and oil in order to minimize the negative impacts of the human ecological footprint. Massive incorporation of renewables can produce reverse power flow at distribution substations, which is against the operating philosophy and design of energy systems. To deal with this problem, the installation of a battery energy storage system (BESS) is proposed in this work. Incorporation of BESS at distribution substations can manage the excess of renewable power generation flowing in reverse, adding flexibility to the power system and allowing increased distributed generation capacity to be installed. Optimal sizing of vanadium redox flow batteries (VRFBs) is carried out by using golden section search algorithm considering capital costs as well as operating and maintenance costs over the project lifetime. The effectiveness of the proposed technique is evaluated through the analysis of a case study. A significant reduction of both reverse flow and the power to be supplied by the substation has been observed.

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电池储能系统支持的配电级风力发电大规模集成

将可再生能源发电整合到配电系统中，旨在减少煤炭和石油等传统能源的消耗，以最大限度地减少人类生态足迹的负面影响。大量使用可再生能源会在配电变电站产生反向潮流，这违背了能源系统的运行理念和设计。为了解决这一问题，本文提出安装电池储能系统(BESS)。在配电变电站并入BESS可以管理反向流动的过量可再生能源发电，增加电力系统的灵活性，并允许增加分布式发电容量的安装。采用黄金分割搜索算法对钒液流电池(VRFBs)的最佳尺寸进行了优化，同时考虑了项目生命周期内的资金成本以及运行和维护成本。通过一个案例分析，对所提出的技术的有效性进行了评价。已经观察到，逆流和变电站提供的功率都显著减少。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Milan PowerTech

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