ARC flash mitigation for 1500 substations: A corporate approach

2015 IEEE Petroleum and Chemical Industry Committee Conference (PCIC) Pub Date : 2015-10-01 DOI:10.1109/PCICON.2015.7435133

Rakan Mahayni, Jamal Bugshan, R. Pragale

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引用次数: 3

Abstract

Locations with excessive arc flash incident energy are discovered after conducting arc flash hazard assessment studies for equipment rated 38 kV and below for very large Oil & Gas company. After conducting many studies of power distribution systems for various plants (e.g. refineries, gas plants, gas oil separation plants, natural gas liquid plants, etc.), it was realized that dangerous locations (greater than 40 calories per square centimeter-cal/cm2) are somewhat consistent among various plant types. Consequently, planning and budgeting for implementing arc flash mitigation becomes predictable from a corporate perspective. Furthermore, specific arc flash mitigation techniques can be imbedded in the specifications of new projects as well as company material standards to avoid unnecessary retrofit activities after installation. More importantly, maintenance personnel can be effectively trained on arc flash mitigation and safe work practices when not too many solutions are utilized. This paper demonstrates a systematic approach to address dangerous arc flash locations for corporate planning purposes and provides practical mitigation solutions that can be applied at many company facilities.

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1500个变电站的电弧闪速缓解:一种公司方法

在对大型石油和天然气公司额定电压为38千伏及以下的设备进行电弧闪光危害评估研究后，发现了电弧闪光照射能量过高的地点。在对各种工厂(如炼油厂、燃气厂、油气分离厂、天然气液体厂等)的配电系统进行了许多研究后，人们意识到，危险地点(每平方厘米-卡/平方厘米大于40卡路里)在不同类型的工厂之间是一致的。因此，从公司的角度来看，为实施减少电弧闪光而进行的规划和预算编制变得可预测。此外，可以在新项目的规格以及公司材料标准中嵌入具体的电弧闪光缓解技术，以避免安装后不必要的改造活动。更重要的是，在不使用太多解决方案的情况下，可以对维护人员进行有效的弧闪缓解和安全工作实践培训。本文展示了一种系统的方法，以解决公司规划目的的危险电弧闪点，并提供了可在许多公司设施中应用的实际缓解解决方案。

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 IEEE Petroleum and Chemical Industry Committee Conference (PCIC)

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