Comparison of Energy Storage Technologies in Smart Grids, Implementation Challenges of Vanadium Technique

2022 Global Energy Conference (GEC) Pub Date : 2022-10-26 DOI:10.1109/GEC55014.2022.9987133

Mehmet Necat Tur, Ö. F. Ertugrul, Mehmet Rida Tur

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Abstract

In general, one of the most important goals of smart grids; the establishment of networks that allow for more distributed generation and energy storage at the end-user side. Energy storage technology; It has great potential to improve electric power systems, increase renewable electricity generation and offer alternatives to petroleum-derived fuels in the transportation sector. This study sheds light on the advantages offered by energy storage technologies, which play an active role in solving the problems encountered during the grid integration of renewable energy sources in smart grid applications. In addition, different solutions offered by different energy storage technologies such as Vanadium are also evaluated in this study. In this study, an energy storage unit with high energy and high power density was designed with the Hybrid Energy Storage System (V-HEES) consisting of vanadium and ultra-capacitor. In addition, the results of the hybrid energy storage system consisting of vanadium and ultra-capacitors and the application areas of these technologies in smart grids are also included.

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智能电网中储能技术的比较，钒技术的实现挑战

总的来说，智能电网最重要的目标之一;在终端用户端建立允许更多分布式发电和储能的网络。储能技术;它在改善电力系统、增加可再生发电和在运输部门提供石油衍生燃料的替代品方面具有巨大潜力。本研究揭示了储能技术的优势，对解决智能电网应用中可再生能源并网过程中遇到的问题具有积极作用。此外，本研究还对钒等不同储能技术提供的不同解决方案进行了评估。本研究利用钒和超级电容器组成的混合储能系统(V-HEES)设计了高能量和高功率密度的储能单元。此外，还介绍了钒与超级电容器组成的混合储能系统的研究成果及其在智能电网中的应用领域。

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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2022 Global Energy Conference (GEC)

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