Review of Control Algorithms for Reconfigurable Battery Systems with an Industrial Example

2021 56th International Universities Power Engineering Conference (UPEC) Pub Date : 2021-08-31 DOI:10.1109/UPEC50034.2021.9548259

Z. M. Pinter, Dimitrios Papageorgiou, Gunnar Rohde, M. Marinelli, C. Træholt

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引用次数: 6

Abstract

Battery cells within battery energy storage systems (BESS) do not have homogeneous attributes, and the lowest capacity ones limit the performance and lifetime of the whole pack. Modern battery management systems (BMS) solve this problem with balancing, while providing the required service, and safe operation to the user. Reconfigurable battery systems (RBS) are BESSs that involve a BMS with reconfiguration. Reconfiguration uses feedback to determine the circuit switching logic. This paper presents a structured review of the control algorithms for RBSs. The RBSs are divided into groups according to their control strategies and control implementations. Finding the adequate control strategy requires well-defined objectives and control design. The control implementation focuses on physical and architectural aspects, like the reconfiguration frequency, the balancing operation and the control topology. The considerations and categories are discussed with the advantages, disadvantages and academic examples, and then an innovative industrial BMS is introduced.

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可重构电池系统控制算法综述及工业实例

电池储能系统(BESS)中的电池单体属性不均匀，容量最低的单体限制了整个电池组的性能和寿命。现代电池管理系统(BMS)通过平衡解决了这一问题，同时为用户提供所需的服务和安全操作。可重构电池系统(RBS)是一种涉及可重构BMS的电池系统。重新配置使用反馈来确定电路的开关逻辑。本文提出了一个结构化的回顾控制算法的rbs。根据rbs的控制策略和控制实现，将其划分为不同的组。找到适当的控制策略需要明确的目标和控制设计。控制实现侧重于物理和体系结构方面，如重新配置频率、平衡操作和控制拓扑。讨论了考虑因素和分类，优缺点和学术实例，然后介绍了一个创新的工业管理系统。

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2021 56th International Universities Power Engineering Conference (UPEC)

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