采用低压限流熔断器，减少电弧闪光能量

Industry Applications Society 46th Annual Petroleum and Chemical Technical Conference (Cat.No. 99CH37000) Pub Date : 1999-09-13 DOI:10.1109/PCICON.1999.806456

R. Doughty, T. Neal, T. Macalady, V. Saporita, K. Borgwald

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引用次数: 66

摘要

限流熔断器，在其限流范围内，减少可用的短路电流，并在半周期或更短的时间内清除故障。现有的熔断器测试数据，如通断l/sup 2/t和峰值通断电流，是基于全电压下的单相螺栓故障测试。目前还没有将单相限流保险丝的测试数据与下游三相电弧释放的能量联系起来的数据。使用L类和RK1熔断器进行了三相600 V测试程序，以确定在20英寸立方箱中距离3相电弧18英寸处产生的电弧能量和入射能量。下游电弧产生的入射能量与限流程度和熔断器螺栓故障试验数据相关。限流熔断器在减少电弧闪光能量方面提供的好处是量化的。

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The use of low voltage current limiting fuses to reduce arc flash energy

Current-limiting fuses, in their current-limiting range, reduce the available short circuit current and clear faults in one-half cycle or less. Available fuse test data, such as let-through l/sup 2/t and peak let-through current, is based upon single-phase bolted-fault tests at full voltage. Currently there is no data available that relates single-phase current-limiting fuse test data with energy released by downstream three-phase arcs. A three-phase 600 V test program was conducted using Class L and RK1 fuses to determine the let-through arc energy and the incident energy produced 18 inches away from a 3-phase arc in a 20 inch cubic box. Incident energy produced by the downstream arc is correlated with the degree of current limitation and fuse bolted-fault test data. The benefit provided by current-limiting fuses in reducing arc flash energy is quantified.

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来源期刊

Industry Applications Society 46th Annual Petroleum and Chemical Technical Conference (Cat.No. 99CH37000)

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