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Metal Oxide Varistor Design Optimization and Main Breaker Branch Switch Control of A Progressively Switched Hybrid DC Circuit Breaker.pdf (26.97 MB)
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Metal Oxide Varistor Design Optimization and Main Breaker Branch Switch Control of A Progressively Switched Hybrid DC Circuit Breaker

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posted on 23.02.2022, 04:15 by Md Rifat Kaisar RachiMd Rifat Kaisar Rachi, Iqbal Husain
In this work, metal oxide varistor (MOV) design optimization and switching control in the main circuit breaker (MCB) branch of a progressively switched hybrid DC circuit breaker (DCCB) is presented. A progressively switched hybrid DCCB can achieve faster fault isolation with reduced peak fault current magnitude and transient recovery voltage compared to a regular hybrid DCCB due to its modified switching strategy. Consequently, thermal stress on the semiconductor devices in MCB is significantly reduced. Analytical model of the system dynamics during fault isolation with progressive switching is derived to demonstrate the switching scheme’s effect on the energy-absorbing component, MOV, during turn-off process. Derived analytical model in conjunction with the displacement curve of the fast mechanical switch of the hybrid DCCB is utilized to optimize the components of the main circuit breaker branch to reduce MOV degradation through asymmetric energy dissipation. A model of the circuit breaker is built in PSCAD to validate the performance of the proposed optimization method in a 10kV/250A system with four stage progressive switching. Additionally, a low voltage system model at 380V is developed in PLECS for two stage progressive switching that works as the basis of experimental validation. This includes both look up table based MOV model and device thermal model for junction temperature estimation. Experimental results are provided for a 380V system to demonstrate reduced fault current peak in a progressive switching and near uniform energy absorption in optimally selected MOVs

History

Email Address of Submitting Author

mrachi@ncsu.edu

ORCID of Submitting Author

0000-0003-3020-7451

Submitting Author's Institution

North Carolina State University

Submitting Author's Country

United States of America