Value of insulated bus bars in reducing arcing fault duration in low voltage systems

2015 61st IEEE Pulp and Paper Industry Conference (PPIC) Pub Date : 2015-06-14 DOI:10.1109/PPIC.2015.7165858

Rahul Rajvanshi, T. Hawkins

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Abstract

Power distribution equipment is the backbone of any Industrial process infrastructure. Safety and reliability are the two most important criteria in the proper functioning of the power distribution system. Low voltage switchgear is an important part of power distribution. Minimizing arcing faults in the switchgear is of utmost importance to enable a safe environment. Arcing faults increase the temperatures inside the equipment beyond 20,000 K, rapidly heating air and vaporizing metal parts. This expanding plasma creates severe mechanical and thermal stress in the equipment which can blow open doors and fragment/burn through the enclosure. Arc Resistant Low Voltage Switchgear (LVS) is designed to provide an additional degree of protection for operating personnel performing normal operating duties in close proximity to the equipment. A series of arc flash simulations were performed on Arc Resistant LVS in both Bare Bus (Non-Insulated) and Insulated/Isolated Bus configurations. In all simulations, Insulated/Isolated Bus had significantly shorter arcing duration and lower energy emitted.

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绝缘母线在减少低压系统电弧故障持续时间中的价值

配电设备是任何工业过程基础设施的支柱。安全性和可靠性是配电系统正常运行的两个最重要的标准。低压开关柜是配电系统的重要组成部分。减少开关设备中的电弧故障对于确保安全环境至关重要。电弧故障使设备内部温度升高到20,000 K以上，迅速加热空气并汽化金属部件。这种膨胀的等离子体在设备中产生严重的机械和热应力，可能会吹开门并撕裂/烧毁外壳。耐电弧低压开关设备(LVS)旨在为在设备附近执行正常操作任务的操作人员提供额外程度的保护。对裸母线(非绝缘)和绝缘/隔离母线配置下的抗电弧LVS进行了一系列电弧闪络模拟。在所有模拟中，绝缘/隔离母线的电弧持续时间明显缩短，能量发射明显降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 61st IEEE Pulp and Paper Industry Conference (PPIC)

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