Investigation of Liquid Metal Current Limiter for MVDC Power System

2019 5th International Conference on Electric Power Equipment - Switching Technology (ICEPE-ST) Pub Date : 2019-10-01 DOI:10.1109/ICEPE-ST.2019.8928693

M. Rong, Zhuo Yang, Qing Wan, Hailong He, Yi Wu, Longlong Wang

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Abstract

Liquid metal current limiter (LMCL) based on forced current commutation is potential to be used in MVDC power system. This LMCL utilizes fast switch (FS) and a parallel connecting path consists of several current limiting elements (CLEs) and an auxiliary magnetic induction module (MIM) in serial. The MIM consists of a pre-charged capacitor C, a thyristor T and a set of magnetic coupling coils (MCC). In this paper, a simulation model of this LMCL is built to investigate the current limiting process. And it is experimentally verified according to current commutation and limitation characteristics. Furthermore, based on this model, the current commutation characteristics are analyzed allowing for different influencing factors including the stray inductance of CLEs path and the parameters of MIM. It can be concluded that the effect of CLEs path stray inductance plays a vital role to current commutation process. Finally, the pre-arcing characteristics of CLE during current commutation process are experimental revealed. The pre-arcing duration tends to decrease with the first 100μs current rising rate (di/dt) increasing. And the arc will not ignite during current commutation when the first 100μs di/dt is 200A/μs at specific conditions.

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直流输电系统液态金属限流器的研究

基于强制换流的液态金属限流器(LMCL)有可能应用于MVDC电力系统中。该LMCL采用快速开关(FS)和由多个限流元件(cle)和一个辅助磁感应模块(MIM)串行组成的并联连接路径。MIM由一个预充电电容C、一个晶闸管T和一组磁耦合线圈(MCC)组成。本文建立了该LMCL的仿真模型，研究了其限流过程。并根据电流换流特性和限流特性进行了实验验证。在此基础上，分析了考虑杂散电感和MIM参数等不同影响因素的电流换相特性。综上所述，杂散电感的影响对电流换相过程起着至关重要的作用。最后，通过实验揭示了CLE在电流换相过程中的预弧特性。预弧持续时间随着前100μs电流上升速率(di/dt)的增大而减小。在特定条件下，当前100μs di/dt为200A/μs时，电弧不会在电流换流过程中引燃。

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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2019 5th International Conference on Electric Power Equipment - Switching Technology (ICEPE-ST)

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