Experimental Verification of a Battery Energy Storage System for Integration with Photovoltaic Generators

Advances in Power Electronic Pub Date : 2017-01-24 DOI:10.1155/2017/8158964

Rajkiran Singh, S. Taghizadeh, N. Tan, S. Mekhilef

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引用次数: 1

Abstract

This paper presents the experimental verification of a 2 kW battery energy storage system (BESS). The BESS comprises a full-bridge bidirectional isolated dc-dc converter and a PWM converter that is intended for integration with a photovoltaic (PV) generator, resulting in leveling of the intermittent output power from the PV generator at the utility side. A phase-shift controller is also employed to manage the charging and discharging operations of the BESS based on PV output power and battery voltage. Moreover, a current controller that uses the - synchronous reference frame is proposed to regulate the dc voltage at the high-voltage side (HVS) to ensure that the voltage ratio of the HVS with low-voltage side (LVS) is equivalent to the transformer turns ratio. The proposed controllers allow fast response to changes in real power requirements and results in unity power factor current injection at the utility side. In addition, the efficient active power injection is achieved as the switching losses are minimized. The peak efficiency of the bidirectional isolated dc-dc converter is measured up to 95.4% during battery charging and 95.1% for battery discharging.

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光伏发电集成蓄电池储能系统的实验验证

本文介绍了2kw电池储能系统(BESS)的实验验证。BESS包括一个全桥双向隔离dc-dc转换器和一个PWM转换器，该转换器旨在与光伏(PV)发电机集成，从而在公用事业侧平衡光伏发电机的间歇性输出功率。基于光伏输出功率和电池电压，采用移相控制器对BESS的充放电操作进行管理。提出了一种采用非同步参考系的电流控制器来调节高压侧(HVS)的直流电压，以保证高压侧(LVS)的电压比等于变压器匝数比。所提出的控制器允许对实际功率需求的变化做出快速响应，并在公用事业端产生统一的功率因数电流注入。此外，由于开关损耗最小，实现了高效的有功功率注入。双向隔离dc-dc变换器在电池充电时的峰值效率可达95.4%，放电时的峰值效率可达95.1%。

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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