Hazard Assessment of Low-voltage Insulated Neutral Networks with Unstable Single-phase Fault

Ilya E. Kazhekin, M. Kharitonov, Evgeni Filipov, Darya Kugucheva
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引用次数: 1

Abstract

The paper considers the influence of transient processes on the safety of single-phase faults in low-voltage electric networks with insulated neutral, taking into account the resistance at the point of phase-to-ground fault. Practically a significant part of the short circuits has a nature of an unstable contact between the phase and the grounded housing, therefore, it is necessary to take into account the effect of transient processes on the indicators characterizing the hazard of an electrical installation. Experimental studies carried out on the physical model of a low-voltage electric network have shown that the surge fault current can be several times higher than the amplitude of the steady-state fault current. In addition, surge currents lead to an increase in the energy released at the damage point. In this case, the magnitude of the surge current and the released energy increase with a decrease in the short circuit resistance. During the studies more than a twofold increase in the released energy was recorded when the nature of the circuit changed from stable to unstable. A similar trend was recorded for the surge fault current. Calculation of the correlation coefficient between these values showed their close relationship, which may indicate the same factors that form these processes. Accordingly, the means aimed at reducing the short-term surge currents in the transient process can be considered as a way to improve the safety of the electrical installation.
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低压绝缘中性电网单相不稳定故障危险性评估
在考虑相接地故障点电阻的情况下,研究了暂态过程对绝缘中性点低压电网单相故障安全的影响。实际上,很大一部分短路具有相和接地外壳之间不稳定接触的性质,因此,有必要考虑瞬态过程对表征电气装置危险的指标的影响。在低压电网物理模型上进行的实验研究表明,浪涌故障电流可以比稳态故障电流的幅值高几倍。此外,浪涌电流导致在损坏点释放的能量增加。在这种情况下,浪涌电流的大小和释放的能量随着短路电阻的减小而增大。在研究过程中,当电路的性质从稳定变为不稳定时,所释放的能量增加了两倍以上。浪涌故障电流也记录了类似的趋势。通过计算这些值之间的相关系数,可以看出它们之间的密切关系,这可能表明形成这些过程的因素是相同的。因此,旨在减少暂态过程中的短期浪涌电流的手段可以被认为是提高电气装置安全性的一种方法。
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