Sizing and location identification for an electrical energy storage system in a renewable microgrid

2016 IEEE Conference on Technologies for Sustainability (SusTech) Pub Date : 1900-01-01 DOI:10.1109/SUSTECH.2016.7897147

P. Penkey, N. Gaul, B. Johnson, H. Hess

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引用次数: 11

Abstract

Microgrids are proving themselves viable to address the need for more reliable renewable power systems. They can improve the resilience of the overall system in case of abnormal conditions. The city of Spokane in Washington, is considering establishing a microgrid using existing transmission and distribution infrastructure. This microgrid will be supplied solely from the existing hydroelectric generators and proposed photovoltaic installations. One of the challenges to overcome in a renewable microgrid is the availability of the renewable energy resources. As the hydro generation capability varies seasonally, solar energy varies both seasonally and over the course of a day, it is advantageous to include an energy storage system in the microgrid. This can compensate for variations, and improve the reliability of the microgrid. The main objective of this paper is to identify the energy storage system suitable for this specific microgrid and estimate its size while finding an ideal location to place it in the microgrid. The study system was simulated using Powerworld. Different techniques were evaluated to determine the size and location of the energy storage system.

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可再生微电网中电能存储系统的规模和位置识别

微电网正在证明自己在解决对更可靠的可再生能源系统的需求方面是可行的。它们可以在出现异常情况时提高整个系统的弹性。华盛顿州的斯波坎市正在考虑利用现有的输电和配电基础设施建立一个微电网。这个微电网将完全由现有的水力发电机和拟议的光伏装置供电。可再生微电网需要克服的挑战之一是可再生能源的可用性。由于水力发电能力随季节变化，太阳能随季节和一天的过程变化，因此在微电网中包含储能系统是有利的。这可以补偿变化，并提高微电网的可靠性。本文的主要目标是确定适合这种特定微电网的储能系统，并估计其规模，同时找到一个理想的位置将其放置在微电网中。使用Powerworld对研究系统进行了仿真。评估了不同的技术，以确定储能系统的大小和位置。

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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2016 IEEE Conference on Technologies for Sustainability (SusTech)

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