Effect of DBDS on DC Resistance of paper oil insulation system

2015 International Conference on Power and Advanced Control Engineering (ICPACE) Pub Date : 2015-09-24 DOI:10.1109/ICPACE.2015.7274978

F. Khan, M. Saritha

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Abstract

A number of power transformer failures occur due to the addition of DBDS compound in transformer oil. When DBDS reacts with Cu, it results in the breakdown of DBDS and thus pawing way to the formation of CU2S. The CU2S on the surface of the copper conductor migrates from one layer to another layer of insulation papers (Kraft papers) and this results in lowering of dielectric strength and thus electrical faults occur. The metal passivators such as Irgamet 39™, Benzotriazole (BTA-Aldrich) and 6Bis-(1-methyl-1-phenylethyl) Phenol (BMPEP-Aldrich) can be used to suppress the formation of copper sulfide. This addition of metal passivators to oil does not reduce or eliminate DBDS [1-6]. In this paper the effect of DBDS on DC Resistance of paper oil insulation system has been studied Experimental study has been carried out to describe the role of DBDS in fall of DC Resistance of paper-oil insulation of transformers. Different quantities of DBDS were added with pure transformer oil and the effect it will have on dc resistance under different applied voltages for different time intervals have been compared and contrasted.

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DBDS对纸油绝缘系统直流电阻的影响

由于变压器油中添加了DBDS化合物，导致了许多电力变压器的故障。当DBDS与Cu发生反应时，会导致DBDS的分解，从而开辟了形成CU2S的途径。铜导体表面的CU2S从绝缘纸(牛皮纸)的一层迁移到另一层，这导致介电强度降低，从而发生电气故障。金属钝化剂如Irgamet 39™，苯并三唑(BTA-Aldrich)和6双-(1-甲基-1-苯乙基)苯酚(BMPEP-Aldrich)可用于抑制硫化铜的形成。在油中加入金属钝化剂并不能减少或消除DBDS[1-6]。本文研究了DBDS对纸油绝缘系统直流电阻的影响，并对DBDS在降低变压器纸油绝缘直流电阻中的作用进行了实验研究。在纯变压器油中加入不同量的DBDS，比较了不同施加电压、不同时间间隔下DBDS对直流电阻的影响。

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 International Conference on Power and Advanced Control Engineering (ICPACE)

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