Study of the Vibration Characteristics of 550 kV GIS Circuit Breaker Based on Rigid-Flexible Coupling Model

High voltage circuit breakers (HVCBs) in the gas insulated switch gear (GIS) play an important role in the control and protection of power system. The mechanical faults account for the largest part of common faults in HVCBs. This paper establishes the rigid-flexible model of a 550 kV GIS HVCB, and e...

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Bibliographic Details
Main Authors: Ge, Yanpeng, Liu, Bo, Su, Shaoshuai, Xu, Yiheng, Sun, Qiang, Zhang, Weikai, Gao, Wensheng
Format: Conference Proceeding
Language:English
Subjects:
Circuit breakers
Couplings
fault diagnosis
High voltage circuit breaker (HVCB)
High-voltage techniques
Power system dynamics
rigid-flexible coupling model
Solid modeling
Three-dimensional displays
travel curve (TC)
vibration signal
Vibrations
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Summary:High voltage circuit breakers (HVCBs) in the gas insulated switch gear (GIS) play an important role in the control and protection of power system. The mechanical faults account for the largest part of common faults in HVCBs. This paper establishes the rigid-flexible model of a 550 kV GIS HVCB, and experimentally studies the behavior characteristics of the HVCB under mechanical fault situation. Firstly, the fine 3D structure model of the 550 kV GIS HVCB is built and the arc-extinguishing principle of the HVCB is analyzed. Then, the rigid model and the rigid-flexible coupling model of the HVCB's components and the whole system are established. The vibration signals of the two models are simulated and compared based on the finite element method. The component model mainly consists of the static arc contact and the dynamic arc contact. Furthermore, the mechanical fault is artificially set in the HVCB, and the vibration waveform are obtained. Finally, the simulation data is compared with the experimental results and the fault characteristics are analyzed. This research realizes the modeling, simulation and measurement of HVCB dynamic characteristics, which is of great significance to the diagnosis and prevention of HVCB mechanical faults.
ISSN:2159-6255
DOI:10.1109/AIM55361.2024.10637129