A Control Method for Balancing the SoC of Distributed Batteries in Islanded Converter-Interfaced Microgrids

Advances in Power Electronic Pub Date : 2016-06-14 DOI:10.1155/2016/8518769

S. Gkavanoudis, K. Oureilidis, G. Kryonidis, C. Demoulias

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引用次数: 6

Abstract

In a low-voltage islanded microgrid powered by renewable energy sources, the energy storage systems (ESSs) are considered necessary, in order to maintain the power balance. Since a microgrid can be composed of several distributed ESSs (DESSs), a coordinated control of their state-of-charge (SoC) should be implemented, ensuring the prolonged lifespan. This paper proposes a new decentralized control method for balancing the SoC of DESSs in islanded microgrids, without physical communication. Each DESS injects a current distortion at 175 Hz, when its SoC changes by 10%. This distortion is recognized by every DESS, through a phase-locked loop (PLL). In order to distinguish the origin of the distortion, each DESS injects a distortion of different time duration. This intermediate frequency has been selected in order to avoid the concurrence with the usual harmonics. The DESSs take advantage of this information and inject a current proportional to the SoC. Implementing this strategy, a comparable number of charging/discharging cycles for each DESS are achieved. Furthermore, an active filter operation, implemented in the rotating frame for each individual harmonic, is integrated in the control of the distributed generation units, supplying nonlinear loads with high-quality voltage. The effectiveness of this method is verified by detailed simulation results.

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孤岛变流器接口微电网中分布式电池荷电状态平衡控制方法

在可再生能源供电的低压孤岛微电网中，储能系统(ess)被认为是维持电力平衡的必要条件。由于微电网可以由多个分布式储能系统(DESSs)组成，因此应实施对其荷电状态(SoC)的协调控制，以确保延长其使用寿命。本文提出了一种新的分散控制方法来平衡孤岛微电网中dess的SoC，无需物理通信。当其SoC变化10%时，每个DESS注入175 Hz的电流失真。这种失真通过锁相环(PLL)被每个DESS识别。为了区分失真的来源，每个DESS注入不同时间持续时间的失真。选择这个中频是为了避免与通常的谐波同时发生。dess利用这些信息并注入与SoC成比例的电流。实施这一策略，每个DESS的充电/放电循环次数可比较。此外，在每个谐波的旋转框架中实施的有源滤波操作被集成到分布式发电机组的控制中，为非线性负载提供高质量的电压。详细的仿真结果验证了该方法的有效性。

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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Advances in Power Electronic

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