Effects of viscosity of ester oils and different sizes of suspended cellulose particles on bridging phenomenon under non-uniform DC electric field

2016 IEEE International Conference on Power and Energy (PECon) Pub Date : 2016-11-01 DOI:10.1109/PECON.2016.7951574

M. H. S. Zainoddin, H. Zainuddin, A. Aman

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引用次数: 3

Abstract

Petroleum-based mineral oils are insulating media that are typically used in the industry, particularly for high voltage (HV) applications. In recent years, however, there is growing interest among researchers to formulate novel dielectric liquids in replacement of petroleum-based mineral oils since mineral oils are non-biodegradable and highly flammable. In addition, the dielectric performance of mineral oils is somewhat limited and therefore, there is a need to develop alternative insulation oils with superior dielectric performance in order to fulfil the demanding requirements of dielectric liquids. One of the promising substitutes for mineral oils is ester oils. In this regard, this research investigates the bridging phenomenon in two types of ester oils with different values of viscosity, i.e. natural and synthetic esters under the influence of direct current (DC) electric field. Three different sizes of contaminants are used, i.e. 100, 300 and 500 μm. The results show that both the size of particles and oil viscosity play important roles in the formation of cellulose bridge and breakdown behaviour.

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非均匀直流电场作用下酯类油粘度和不同粒径悬浮纤维素颗粒对桥接现象的影响

石油基矿物油是工业中常用的绝缘介质，特别是高压(HV)应用。然而，近年来，由于矿物油是不可生物降解和高度易燃的，研究人员对开发新型介电液体来替代石油基矿物油越来越感兴趣。此外，矿物油的介电性能受到一定的限制，因此需要开发具有优越介电性能的替代绝缘油，以满足介电液体的苛刻要求。酯油是矿物油最有前途的替代品之一。为此，本研究考察了两种不同粘度值的酯类油，即天然酯类和合成酯类在直流电场作用下的桥接现象。有100 μm、300 μm和500 μm三种不同尺寸的污染物。结果表明，颗粒的大小和油的粘度对纤维素桥的形成和分解行为都有重要影响。

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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2016 IEEE International Conference on Power and Energy (PECon)

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