一种新型的模块化储能系统并联控制方法,具有高性能、冗余性和适用性

Jung-Hoon Ahn, Byoung-Kuk Lee
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引用次数: 8

摘要

本文通过对各种传统并联控制方式的比较分析,提出了一种新的模块化ess并联控制方式。用于ess并联运行的VSI模块必须满足以下基本要求:1)高负载共享性能,2)严格的输出调节,3)高冗余,4)两种模式对ess的高适用性,而传统的方法无法同时实现高冗余和高负载共享性能。相反,所提出的并行控制直接控制每个VSI的输出电流,从而在不知道它们的额定功率和连接多少VSI的情况下实现出色的负载共享性能。通过仿真结果、30kw ESS样机及其实验结果验证了所提控制算法的正确性。
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A novel parallel control for modular energy storage system achieving high performance, redundancy and applicability
This paper proposes a novel parallel control for modular ESSs through the comparative analysis of various conventional parallel control types The VSI modules for ESSs operating in parallel must satisfy the following fundamental requirements: 1) high load sharing performance, 2) tight output regulation, 3) high redundancy, 4) high applicability to both modes for ESSs However, conventional approaches failed to achieve the both goal of high redundancy and high load sharing performance at once. On the contrary, the proposed parallelism control directly controls their output current of each VSI, leading to achieving an excellent load sharing performance without knowledge of their rated-powers and how many VSIs are connected. The verification of the proposed control algorithm is verified by simulation results, 30 kW ESS prototype, and its experimental results.
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