A Novel Fault-Tolerant Operation Approach for Cascaded H-Bridge Converter-Based Battery Energy Storage Systems to Avoid Overcharge

IF 7.2 1区工程技术 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Industrial Electronics Pub Date : 2024-11-08 DOI:10.1109/TIE.2024.3485716

Qian Xiao;Haolin Yu;Yu Jin;Hongjie Jia;Yunfei Mu;Huiqiao Liu;Wenhua Li;Remus Teodorescu;Frede Blaabjerg

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Abstract

Conventional fundamental frequency zero-sequence voltage (FFZSV) injection-based fault-tolerant operation methods cause power reversion under submodule (SM) failure conditions with low-power factor, which leads to overcharge risk in the cascaded H-bridge converter-based battery energy storage system (CHB-BESS). To solve this issue, a novel fault-tolerant operation approach has been proposed for the CHB-BESS. First, the power reversion mechanism and overcharge risk are analyzed with the conventional FFZSV injection-based methods. On this basis, the operation conditions of the CHB-BESS are divided into three stages according to the safe FFZSV injection region, the FFZSV is modified, and the negative sequence current is injected when necessary. As a result, the power flow of battery packs among the three phases can maintain the same direction, and the power reversion and overcharge risk can be avoided. Experimental results under various conditions verify that the proposed fault-tolerant operation approach of the CHB-BESS can achieve uninterrupted operation and avoid overcharge risk.

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避免过度充电的基于级联 H 桥转换器的电池储能系统的新型容错运行方法

传统的基于基频零序电压（FFZSV）注入的容错运行方法会在低功率因数的子模块（SM）故障条件下产生功率回调，导致级联h桥变换器电池储能系统（CHB-BESS）存在过充电风险。为了解决这一问题，提出了一种新的CHB-BESS容错操作方法。首先，用传统的基于FFZSV注入的方法分析了功率反转机理和过充风险；在此基础上，根据FFZSV安全注入区域将CHB-BESS的运行条件分为三个阶段，对FFZSV进行修改，必要时注入负序电流。这样可以使电池组三相之间的功率流保持同一方向，避免了功率回退和过充的风险。各种条件下的实验结果验证了所提出的CHB-BESS容错运行方法能够实现不间断运行，避免过充风险。

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来源期刊

IEEE Transactions on Industrial Electronics 工程技术-工程：电子与电气

CiteScore

16.80

自引率

9.10%

发文量

1396

审稿时长

6.3 months

期刊介绍： Journal Name: IEEE Transactions on Industrial Electronics Publication Frequency: Monthly Scope: The scope of IEEE Transactions on Industrial Electronics encompasses the following areas: Applications of electronics, controls, and communications in industrial and manufacturing systems and processes. Power electronics and drive control techniques. System control and signal processing. Fault detection and diagnosis. Power systems. Instrumentation, measurement, and testing. Modeling and simulation. Motion control. Robotics. Sensors and actuators. Implementation of neural networks, fuzzy logic, and artificial intelligence in industrial systems. Factory automation. Communication and computer networks.