The prompt extinction of the secondary arc is critical to the single-phase reclosing of AC transmission lines, including half-wavelength power transmission lines. In this paper, a low- voltage physical experimental pl...The prompt extinction of the secondary arc is critical to the single-phase reclosing of AC transmission lines, including half-wavelength power transmission lines. In this paper, a low- voltage physical experimental platform was established and the motion process of the secondary arc was recorded by a high-speed camera. It was found that the arcing time of the secondary arc rendered a close relationship with its arc length. Through the input and output power energy analysis of the secondary arc, a new critical length criterion for the arcing time was proposed. The arc chain model was then adopted to calculate the arcing time with both the traditional and the proposed critical length criteria, and the simulation results were compared with the experimental data. The study showed that the arcing time calculated from the new critical length criterion gave more accurate results, which can provide a reliable criterion in term of arcing time for modeling and simulation of the secondary arc related with power transmission lines.展开更多
爆炸气流是影响暂态电弧自熄灭时间的重要因素,为此,从电弧运动的角度出发,研究了利用爆炸气流灭弧装置产生的爆炸气流对电弧自熄灭时间的影响。利用链式电弧模型以及电弧自熄灭弧长判据,对在故障电流为1 k A时不同喷口角度、气流速度...爆炸气流是影响暂态电弧自熄灭时间的重要因素,为此,从电弧运动的角度出发,研究了利用爆炸气流灭弧装置产生的爆炸气流对电弧自熄灭时间的影响。利用链式电弧模型以及电弧自熄灭弧长判据,对在故障电流为1 k A时不同喷口角度、气流速度灭弧参数下的电弧自熄灭时间进行仿真计算,并与试验结果进行比较分析,研究结果表明:在气流速度为300 m/s、电流1 k A、喷口角度60o时,仿真中得出电弧自熄灭时间为0.3 ms,而试验中得出的电弧自熄灭时间为0.4 ms,仿真值与实际值基本相符。电弧自熄灭时间与爆炸气流速度有关,在相同的故障电弧电流的情况下,电弧自熄灭时间随着气流速度增大而减小。这说明了爆炸气流灭弧装置在灭弧性能上的可行性。展开更多
基金supported by National Natural Science Foundation of China(Nos.51277061 and 51420105011)
文摘The prompt extinction of the secondary arc is critical to the single-phase reclosing of AC transmission lines, including half-wavelength power transmission lines. In this paper, a low- voltage physical experimental platform was established and the motion process of the secondary arc was recorded by a high-speed camera. It was found that the arcing time of the secondary arc rendered a close relationship with its arc length. Through the input and output power energy analysis of the secondary arc, a new critical length criterion for the arcing time was proposed. The arc chain model was then adopted to calculate the arcing time with both the traditional and the proposed critical length criteria, and the simulation results were compared with the experimental data. The study showed that the arcing time calculated from the new critical length criterion gave more accurate results, which can provide a reliable criterion in term of arcing time for modeling and simulation of the secondary arc related with power transmission lines.
文摘爆炸气流是影响暂态电弧自熄灭时间的重要因素,为此,从电弧运动的角度出发,研究了利用爆炸气流灭弧装置产生的爆炸气流对电弧自熄灭时间的影响。利用链式电弧模型以及电弧自熄灭弧长判据,对在故障电流为1 k A时不同喷口角度、气流速度灭弧参数下的电弧自熄灭时间进行仿真计算,并与试验结果进行比较分析,研究结果表明:在气流速度为300 m/s、电流1 k A、喷口角度60o时,仿真中得出电弧自熄灭时间为0.3 ms,而试验中得出的电弧自熄灭时间为0.4 ms,仿真值与实际值基本相符。电弧自熄灭时间与爆炸气流速度有关,在相同的故障电弧电流的情况下,电弧自熄灭时间随着气流速度增大而减小。这说明了爆炸气流灭弧装置在灭弧性能上的可行性。