矿山现场供电网络中限制人防触电效率的因素分析

Q4 Engineering Gornaya Promyshlennost Pub Date : 2023-08-25 DOI:10.30686/1609-9192-2023-4-54-58
K.N. Marenich, А.I. Denisova
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引用次数: 0

摘要

加强对矿井人员电击保护的相关性与在复杂电气设备存在的情况下,在电力电气设备运行过程中,人体接触带电相导体的可能性很大有关。作者指出了限制漏电保护装置作为矿用电网的一部分向大容量设备供电的效率的以下因素:1 .基于补偿扼流圈电感的校正,自动补偿器不能完全补偿并联电导和漏电回路中的电容电流;2 -通过相地电压比较检测漏电相的方法的实施对绝缘电容超过0.9 μF/相和漏电电阻(人体)超过1.0 kOhms有限制;3 -在电源线有效绝缘电阻较低(但仍在允许范围内)的情况下,高绝缘电容开关连接时,漏电保护装置对电源线开关暂态过程的稳定性不能保证;4 -漏电保护的功能仅限于切断矿场变电站的能量流,不包括抑制用户切换到运行模式的感应电动机的反电动势,这代表了触电危险。
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Analysis of factors limiting the efficiency of human protection against electric shocks in the power supply network of the mine site
The relevance of enhancing the protection of mine personnel from electric shocks is associated with a high probability of human contact with a live phase conductor during the operation of power electrical equipment in presence of complex electrical equipment being part of the mine site. The authors have identified the following factors that limit the efficiency of the earth leakage protection means in relation to the their possible operation as part of the mine electric network used to supply power to high-capacity equipment: 1 – capacitance currents in the shunt conductances and leakage circuit are not fully compensated by autocompensators based on the correction of the compensating choke inductance; 2 – implementation of the method to detect the phase with the earth leakage by comparing the phase-to-ground voltages has a limitation for the insulation capacitances exceeding 0.9 μF/phase and the leakage resistance (human body) exceeding 1.0 kOhms; 3 – stability of the earth leakage protection devices to switching transient processes in the power line is not ensured when switching connections with high insulation capacitance in conditions of low (but still within the permissible level) active insulation resistance of the power line; 4 – functionality of the earth leakage protection is limited to cutting the energy flow of the transformer substation of the mine site off the power line and does not cover the suppression of inverse electromotive forces of the induction motors of consumers switching to the run-out mode, which represent an electrical shock hazard.
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来源期刊
Gornaya Promyshlennost
Gornaya Promyshlennost Engineering-Industrial and Manufacturing Engineering
CiteScore
1.10
自引率
0.00%
发文量
100
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