THE THERMAL RADIATION IMPACT OF A CURRENT CARRYING CONDUCTOR AND A METALLIC OBJECT: A CASE STUDY OF TRANSFORMER G& P ACCESSORIES AND ALUMINUM LADDER

I. Okoye
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Abstract

The thermal radiation impact of a current carrying conductor and a metallic object cannot be neglected. The improper knowledge of this effect and the causes are one of the major reasons that contribute to the high number of electrocution cases registered in Nigeria at various levels. This research reveals the neglected magnetic effect that exist around  a current carrying conductor and a metallic object near it as one of the silent causes of  electric hazard that kill people on daily basis. The researcher observered that electrons are readily available on Aluminum ladder and that photon energy from sunlight or thermal radiation usually powers this electron on the metallic ladder without the knowledge of the operator thereby causing current to start flowing on both the ladder and the current carrying conductor in the same direction. This phenomenon causes current to start flowing on the two naked conductors without the knowledge of some operators who thought that current is only flowing on transformer accessories (G and P unit).  The force of attraction acts on two conductors carrying current in the same direction. For this reason, the current from photon energy (thermal radiation) and electrons flow spontaneously in all directions thereby attracting the current that flows from transformer accessories (G and P unit) placed 5 meters distance from the Aluminum ladder. The magnetic impact of this explanation is very deadly as it could result to what is known as electrocution. The researcher recommended the possible way of reducing electrical hazard that might arise from such incidence.  Thermal radiation can lead to “Switching –ON” of a device to supply current when the majorities of the number of holes are equals to the no of electrons. Thermal radiation can equally leads to “Switching Off” of a device to stop supplying current when the no of holes is less than number of electrons. Naturally, every semiconductor material has a good reasonable no of electrons existing on the surface of that material and the sunlight is a good carrier of photon. Keywords : Thermal radiation, Magnetic impact, conductor, electrocution, Photon energy and transformer accessories, semiconductor material. DOI : 10.7176/APTA/80-07 Publication date :October 31 st 2019
载流导体和金属物体的热辐射影响:变压器g&p附件和铝梯的案例研究
载流导体和金属物体的热辐射影响不容忽视。对这种影响及其原因的不正确认识是造成尼日利亚各级登记的电刑案件数量众多的主要原因之一。这项研究揭示了存在于载流导体及其附近金属物体周围的被忽视的磁效应是每天造成人员死亡的电气危险的无声原因之一。研究人员观察到,铝梯上的电子很容易获得,而来自阳光或热辐射的光子能量通常在操作者不知情的情况下为金属梯上的电子提供动力,从而导致电流开始在梯子和载流导体上沿同一方向流动。这种现象导致电流在两个裸导体上开始流动,而一些操作人员却不知道,他们认为电流只在变压器附件(G和P单元)上流动。引力作用在两个导体上,使电流沿同一方向流动。因此,来自光子能量(热辐射)和电子的电流自发地向各个方向流动,从而吸引从离铝梯5米远的变压器附件(G和P单元)流出的电流。这种解释的磁冲击是非常致命的,因为它可能导致所谓的触电。研究人员推荐了减少此类事件可能产生的电气危害的可能方法。热辐射可以导致“接通”的设备供电时,大多数空穴的数量等于电子的数量。当空穴数小于电子数时,热辐射同样可以导致器件“关闭”以停止供电。自然地,每一种半导体材料表面都有相当数量的电子存在,而太阳光是光子的良好载体。关键词:热辐射,磁冲击,导体,电刑,光子能量和变压器附件,半导体材料出版日期:2019年10月31日
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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