基于全局相位结构的氧化还原液流电池接电瞬态行为

T. Mannari, T. Hikihara
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引用次数: 1

摘要

氧化还原液流电池(RFB)是电网中最有前途的储能系统之一。RFB具有许多优点,例如快速响应、大容量和可伸缩性。由于这些优点,RFB可以在混合时间尺度下运行。实际应用表明,RFB可用于平衡负荷、补偿凹陷和平滑可再生能源的输出。在这些应用中,对RFB的瞬态行为分析是一个关键问题。RFB受电学、化学和流体动力学的支配。混合结构使分析变得困难。为了分析RFB的瞬态行为,需要精确的模型。本文以电解液中离子浓度的变化为研究对象,建立了一个主要基于化学动力学的模型来模拟离子浓度的变化。仿真结果介绍了负载变化时RFB的瞬态特性。发现了包括振荡在内的三种典型瞬态行为。结果表明,由于系统的动态速度快或慢,系统的复杂瞬态行为是由对负荷的快速响应引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transient Behavior of Redox Flow Battery Connected to Circuit Based on Global Phase Structure
A Redox Flow Battery (RFB) is one of the promising energy storage systems in power grid. An RFB has many advantages such as a quick response, a large capacity, and a scalability. Due to these advantages, an RFB can operate in mixed time scale. Actually, it has been demonstrated that an RFB can be used for load leveling, compensating sag, and smoothing the output of the renewable sources. An analysis on transient behaviors of an RFB is a key issue for these applications. An RFB is governed by electrical, chemical, and fluid dynamics. The hybrid structure makes the analysis difficult. To analyze transient behaviors of an RFB, the exact model is necessary. In this paper, we focus on a change in a concentration of ions in the electrolyte, and simulate the change with a model which is mainly based on chemical kinetics. The simulation results introduces transient behaviors of an RFB in a response to a load variation. There are found three kinds of typical transient behaviors including oscillations. As results, it is clarified that the complex transient behaviors, due to slow and fast dynamics in the system, arise by the quick response to load.
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