Scale model experiment for the study of lightning-induced spark discharge on large floating roof oil tanks

Baoquan Liu, A. Jiang, Z. Fu
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引用次数: 3

Abstract

The statistical data show lightning strike is the major cause of the floating oil tanks ignition and the actual tank stroke-ignition process is still not completely known. The effects of direct lightning stroke on floating oil tank have been studied a lot in previous works and there is little research on the influence of lightning stroke in the vicinity of tank. In order to study the indirect effect of lightning on the floating roof oil tanks, refer to the lightning-induced overvoltage scale model experiment used for power distribution line, this paper designs two type of scale model experiment in laboratory concentrate on the effect of thundercloud and return stroke channel respectively. The former experiment was conducted. Preliminary application results show that if the floating roof and tank shell was connected by the shunts or bonding cable, the induced charge generated by the thundercloud model was not measured. No spark was observed during the entire experiment.
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大型浮顶油罐雷电致火花放电的比例模型试验研究
统计数据表明,雷击是导致浮油罐点火的主要原因,而实际的油罐冲程点火过程尚不完全清楚。在以往的研究中,对直雷击对浮油储罐的影响研究较多,而对浮油储罐附近雷击的影响研究较少。为了研究雷电对浮顶油罐的间接影响,参考配电线路雷电过电压比例模型实验,设计了两种实验室比例模型实验,分别集中研究雷云和回冲通道的影响。进行了前一个实验。初步应用结果表明,若浮顶与罐壳通过分流或连接电缆连接,则无法测量雷云模型产生的感应电荷。在整个实验过程中没有观察到火花。
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