Capacitive making of double‐break vacuum circuit breaker: Transverse magnetic field contacts are superior to axial magnetic field contacts

Geng, Yun; Chen, Xinggui; Yao, Xiaofei; Peng, Jing; Geng, Yingsan; Liu, Zhiyuan

doi:10.1049/gtd2.12383

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…Jie Deng and et al studied the performance of the triggered vacuum arc under the TMF-AMF electrode and they pointed out that the vacuum arc maintained a diffused state with rotation on the electrode surface and the arc presented different behaviour under different current levels (5 kA∼20 kA) [6]. The research group of Yingsan Geng and Jianhua Wang put their focuses on the studies of the rotation behaviour of the TMF-based vacuum arcs [7,8] and they furtherly compared the interruption performance of vacuum circuit breaker between TMF-based electrodes and the AMF-based one [9]. They proposed a method to determine the rotation velocity of the constricted vacuum arc which provided the ideas for the subsequent analysis of the present work.…”

Section: Introductionmentioning

confidence: 99%

Dynamic performance of the plasma‐triggered‐based protective gas switch used in the hybrid UHVDC system

Wang

Gao

et al. 2022

IET Generation Trans & Dist

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Following the design demands of the protective switch used in ±800 kV hybrid UHVDC system, a plasma-triggered-based protective gas switch (PTGS) is developed by performing the comparative study of its dynamic performance by considering the arc dynamic behaviour induced by the transverse magnetic field (TMF)-based electrode used in the PTGS. The PTGS-based electrode, as the core component, is designed with a helicalslotted structure, the TMF could drive the arc between moving from the electrode centre to the electrode edge and then rotate rapidly along the edge. A 3D magnetohydrodynamic model (MHD) was established to computationally evaluate the effects of electrode structure variation on arc rotation characteristics. The model was verified by comparing the calculation results with experiments performed on the designed PTGS prototype. A comprehensive evaluation approach was also proposed to support the comparative analysis of the arc dynamic behaviour and estimate the arc-controlling capability of the designed electrode to further assess the dynamic performance of the designed PTGS. This approach could quantitatively estimate the arc behaviour from a spatial scale, the variation of characterised parameters such as temperature associated with arc behaviour is concerned as well, which reasonably supports the electrode optimum design and the PTGS.

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Section: Introductionmentioning

confidence: 99%

Dynamic performance of the plasma‐triggered‐based protective gas switch used in the hybrid UHVDC system

Wang

Gao

et al. 2022

IET Generation Trans & Dist

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A New Measurement Method of Contact Conditions in a Vacuum Circuit Breaker With the Field Emission Current During the Closing Operation

Geng

Dong

Yao

et al. 2022

IEEE Trans. Instrum. Meas.

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Investigation of the dielectric recovery process of vacuum arc in double breaks by planar laser-induced fluorescence

Wang,

Cao,

et al. 2024

Journal of Vacuum Science &Amp; Technology A

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The multibreak vacuum circuit breaker uses multiple short gaps to interrupt the fault current, greatly improving the dielectric strength, and is a viable method to realize high-voltage interruption. The metal vapor distribution near the current zero is crucial for the dielectric recovery process in the multibreak vacuum circuit breaker. Due to the complicated dielectric construction and the interaction between the breakers, the vacuum arc inevitably deviates from the axisymmetric distribution during the interruption process. The traditional diagnosis method limited to 0D or 1D is not sufficient to study the real distribution of metal vapor near the current zero. To address these issues, we developed a planar laser-induced fluorescence method to measure the 2D distribution of copper vapor near the current zero by detecting 510.6 nm fluorescence intensity. The results indicate that for the butt contacts, the copper vapor is diffused in the gap of the high-voltage break and aggregated on the cathode surface of the low-voltage break. The axial magnetic field and transverse magnetic field affect the 2D copper vapor distribution and eliminate the inconsistency, which is achieved by affecting the motion of charged particles and the ionization-recombination process. Furthermore, the copper vapor density exhibits a positive dependence on the arc current, and the magnetic field impacts the density increase rate and distribution mode.

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Capacitive making of double‐break vacuum circuit breaker: Transverse magnetic field contacts are superior to axial magnetic field contacts

Cited by 3 publications

References 23 publications

Dynamic performance of the plasma‐triggered‐based protective gas switch used in the hybrid UHVDC system

Dynamic performance of the plasma‐triggered‐based protective gas switch used in the hybrid UHVDC system

A New Measurement Method of Contact Conditions in a Vacuum Circuit Breaker With the Field Emission Current During the Closing Operation

Investigation of the dielectric recovery process of vacuum arc in double breaks by planar laser-induced fluorescence

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