Abstract
Electric power equipment has complex construction. Therefore, it is very important to have enough information about the state of equipment. High voltage transformers play a very important role in the electric power system. One of the most important parts of electric power equipment is the insulation system. Insulation system must be in a good condition for reliable and safe operation of electrical devices. Insulation system of electrical equipment is exposed to various factors which could have negative influence on its condition. Oil impregnated insulation paper is one of the oldest insulation systems used in electrical power equipment. Mineral oils have been used for decades as transformer fluids because of their excellent dielectric properties and availability. However, performance of mineral oil starts to be limited due to environmental consideration. The aim of this paper is to simulate a real insulation system of transformer and to show the influence of accelerated thermal ageing on the insulation system. Properties such as relative permittivity, dissipation factor and the breakdown voltage will be described and analysed.
Highlights
The AC breakdown voltage of natural esters is generally higher than the breakdown voltage of mineral oils
This is because sunflower oil has relative permittivity greater than transformer mineral oil
The initial average values of the breakdown voltage were 21.1 kV for the sunflower oil paper and 18.2 kV for the mineral oil paper. 750 hours of the thermal stress caused the growth of the average values of breakdown voltage from 21.1 to 23.38 kV for the sunflower oil paper, and c 2016 ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING
Summary
Proper operation of electrical equipment requires the use of high quality insulating materials. Power equipment as transformers are one of the vital and expensive elements in the industry of electrical energy [1]. The insulating system is composed of the combination of oil. There were used some measurements for investigating the ageing mechanism. Dielectric properties as relative permittivity, dissipation factor and breakdown voltage were analysed. C 2016 ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING.
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