Theoretical research for the application of flow storage battery in demand side management

2010 International Conference on Power System Technology Pub Date : 2010-12-13 DOI:10.1109/POWERCON.2010.5666699

Bingying Wu, Bu-han Zhang, J. Wang, Junfang Li, Xu Zheng, Yifang Liu, Biao Mao, Yidan Gao

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引用次数: 7

Abstract

Demand side management (DSM) is an important strategy for the electric power industry. As the load demand is growing fast and the difference of peak and valley power is becoming larger with an annual increasing trend, it is necessary to take measures to implement peak load shifting. Flow storage battery (FSB) is well suited for the application owing to its high energy efficiency, fast response, long life and low maintenance requirements. This paper firstly introduces the advantages of FSB compared with other storage batteries, then the detailed model and battery properties are presented. Because FSB has the potential to save cost for both system equipment and customers, an optimal mathematical model is constructed to maximize the savings of customers to find the corresponding optimal capacity of FSB. A benchmark medium-voltage (MV) distribution network from German is used as an example to study the application of FSB in DSM in the constant power control mode. The result is significant to demonstrate that the application of FSB in DSM to implement the load shifting has great advantages and well potential to practical application.

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液流蓄电池在需求侧管理中的应用理论研究

需求侧管理(DSM)是电力行业的一项重要战略。随着负荷需求的快速增长和峰谷功率差的逐年增大，有必要采取措施实现调峰。液流蓄电池(FSB)具有高能效、响应速度快、寿命长、维护要求低等特点，非常适合应用。本文首先介绍了FSB与其他储能电池相比的优点，然后介绍了FSB的详细模型和电池性能。由于FSB具有为系统设备和客户节约成本的潜力，因此构建了以客户节约成本最大化为目标的最优数学模型，从而找到相应的FSB最优容量。以德国中压配电网为例，研究了恒功率控制模式下FSB在电力需求侧管理中的应用。结果表明，将FSB应用于电力需求侧管理中实现负荷转移具有很大的优势和实际应用潜力。

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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2010 International Conference on Power System Technology

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