SF6断路器电弧放电时电弧触头冲蚀对分解产物的影响

2019 5th International Conference on Electric Power Equipment - Switching Technology (ICEPE-ST) Pub Date : 2019-10-01 DOI:10.1109/ICEPE-ST.2019.8928906

Ren-gang Yang, Mengyuan Xu, Jing Yan, Yingsan Geng

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引用次数: 0

摘要

SF6具有优良的绝缘和灭弧性能，广泛应用于额定电压40.5kV及以上的断路器中。分解成分分析(DCA)方法被认为是SF6断路器状态监测和故障诊断中最有前途的方法之一。断路器断流时，电弧触点必须被高温电弧侵蚀，对SF6分解产物影响较大。本文研究了电弧接触侵蚀对SF6分解产物的影响。实验在40.5kV SF6断路器上进行。采用气相色谱仪和电化学传感器对分解产物进行分析。结果表明，随着电弧能量的增大，分解产物的浓度增大。电弧接触侵蚀对SO2、SOF2、CO2和CS2的浓度有显著影响。与接触侵蚀前相比，SO2+SOF2浓度明显降低。CS2浓度增加，CO2浓度迅速增加。探讨了接触侵蚀前后分解产物浓度变化的主要原因。研究结果可为SF6断路器的状态评估和故障诊断提供有效依据。

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Influence of Arcing Contacts Erosion on Decomposition Products under Arc Discharge in SF6 Circuit Breaker

SF6 is widely used in circuit breakers for rated voltage of 40.5kV and above due to its excellent insulation and arc-quenching performance. Decomposed components analysis (DCA) method is considered one of the most promising methods for the condition monitoring and fault diagnosis of SF6 circuit breaker. The arcing contacts must be eroded by high temperature electric arc when the circuit breaker interrupts current, which has a significant influence on SF6 decomposition products. In this paper, the influence of arcing contacts erosion on SF6 decomposition products was studied. The experiments were carried out on a 40.5kV SF6 circuit breaker. The gas chromatograph and electrochemical sensor were used to analysis the decomposition products. It has been found that the concentration of decomposition products increases with the arc energy. The arcing contacts erosion has a significant effect on the concentration of SO2, SOF2, CO2 and CS2. Comparing with the state before contacts erosion, the concentration of SO2+SOF2 has decreased significantly. The concentration of CS2 has increased, and the concentration of CO2 has increased rapidly. The main reason for the change of decomposition products concentration before and after contacts erosion is discussed. The research results can provide the effective basis for the condition evaluation and fault diagnosis of SF6 circuit breakers.

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来源期刊

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

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