Electric arc-flash energy calculations for photovoltaic systems

J. Yuventi
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引用次数: 4

Abstract

Photovoltaic systems have increased in both the quantity of installations and the size of installations over the past decade. As more utility-run systems are being constructed, it is important to consider the safety of operators and maintenance crew during the design and analyses phases. Unfortunately, one potential safety hazard, the electrical arc-flash, is not well understood for photovoltaic systems. The thermal energy released by this hazard can be significant, especially in large photovoltaic systems operating at high voltages and currents. This paper examines the conditions surrounding electric arc-flashes in photovoltaic systems based on typical designs. Using existing models for DC arc-flashes and basic circuit theory, equations and analysis techniques are developed to estimate the thermal energy that can be released if these hazards were to occur. These techniques can be used to determine the hazard-risk-category for the system components most at risk, until more empirical models are developed.
光伏系统电弧闪光能量计算
在过去的十年里,光伏系统的安装数量和安装规模都有所增加。随着越来越多的公用事业系统的建设,在设计和分析阶段考虑操作人员和维护人员的安全是很重要的。不幸的是,一个潜在的安全隐患,电弧闪光,并没有很好地了解光伏系统。这种危险释放的热能可能是显著的,特别是在高电压和高电流下运行的大型光伏系统。本文以典型设计为基础,研究了光伏系统中电弧闪蒸的环境条件。利用现有的直流电弧闪光模型和基本电路理论,开发了方程和分析技术来估计这些危害发生时可能释放的热能。这些技术可用于确定风险最大的系统组件的风险类别,直到开发出更多的经验模型。
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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