VFB Maintenance Methods: Technical and Economic Issues

Journal of Advanced Thermal Science Research Pub Date : 2022-03-11 DOI:10.15377/2409-5826.2022.09.1

Nicola Poli, Giacomo Marini, Andrea Trovò

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Abstract

The VFB system has been extensively studied for almost 30 years. Several plants are installed around the world, with power and energy exceeding some MW and some MWh respectively and new companies are entering the growing market. However, a real widespread application of this technology is hindered by its high capital cost. One method to make these batteries more competitive on the market is to increase their cyclability by means of appropriate maintenance procedures. Some procedures are focused on physical treatments such as the remixing of the positive electrolyte with the negative one, which causes heat generation. Other methods are focused on chemical and electrochemical regeneration procedures which make use of chemical reducing agents, catalysts or electrochemical processes. The latter requires the use of an electrolysis system in order to restore the vanadium oxidation state to the correct ratio in the positive and negative electrolyte. In the first part of this work, an extensive description of VFB technology is presented while in the second part a description of the most important and realizable maintenance procedures with their impact on the system cost is shown, considering both operative and economical points of view.

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VFB维护方法:技术和经济问题

VFB系统已经被广泛研究了近30年。世界各地安装了几家工厂，电力和能源分别超过了一些兆瓦和一些兆瓦时，新的公司正在进入这个不断增长的市场。然而，这项技术的真正广泛应用受到其高昂的资金成本的阻碍。使这些电池在市场上更具竞争力的一种方法是通过适当的维护程序来增加其可循环性。一些程序侧重于物理处理，如正电解质与负电解质的再混合，这会导致热量的产生。其他方法集中在化学和电化学再生程序，利用化学还原剂，催化剂或电化学过程。后者需要使用电解系统，以便将钒的氧化状态恢复到正负极电解质中的正确比例。在本工作的第一部分中，对VFB技术进行了广泛的描述，而在第二部分中，从操作和经济的角度出发，描述了最重要和可实现的维护程序及其对系统成本的影响。

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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Journal of Advanced Thermal Science Research

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