Dissolved Gas Analysis (DGA) of Thermally Aged Blended Transformer Oil

2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2020-10-18 DOI:10.1109/CEIDP49254.2020.9437452

Manas Chakraborty, Niharika Baruah, Rohith Sangineni, Sisir Kumar Nayak, Prabhat Kumar Maiti

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引用次数: 2

Abstract

Vegetable based ester oils (VOs) are potential substitute of mineral insulating oils (MOs) in transformers due to their enhanced dielectric properties and better biodegradability. Retro filling of operating transformers originally filled with MO by VO is a real possibility, resulting to a mixture of VO and MO, known as the blended oils (BOs). The nature of gas formation (dissolved gases) in blended insulating oils (i.e. MO/VO mixture) needs investigation to understand the fault conditions in such transformers. Fresh MO and VO samples are blended in different proportions, namely, BO1 (25% VO + 75% MO), BO2 (50% VO + 50% MO) and BO3 (75% VO + 25% MO) and are thermally aged in open beaker for 168 hours at 150°C. Dissolved Gas Analysis (DGA) is carried out as per IEC 60567 before and after ageing along with the individual MO and VO. The different DGA fault diagnosis techniques are compared. The DGA data shows that the gas generation varies with the change in MO/VO proportion. Though, most of the gases show decreasing trend in concentration with increase in VO proportion, generation of gases like C2H6, CO and CO2 is more in the blended oils (BO) than compared to the individual oils (MO & VO). The nature of gas generation in thermally aged BOs is different than that of thermally aged individual MO and VO. The molecular interaction between VO and MO molecules may be responsible for higher gas generation in BOs. The mechanism of gas formation in BOs needs more investigation.

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热老化混合变压器油的溶解气体分析

植物基酯油(VOs)具有较好的介电性能和生物降解性，是替代矿物绝缘油(MOs)用于变压器的潜在材料。由VO对原来充满MO的运行变压器进行反向填充是一种现实的可能性，从而产生VO和MO的混合物，称为混合油(BOs)。需要研究混合绝缘油(即MO/VO混合物)中气体形成(溶解气体)的性质，以了解此类变压器的故障条件。新鲜MO和VO样品按不同比例混合，即BO1 (25% VO + 75% MO)， BO2 (50% VO + 50% MO)和BO3 (75% VO + 25% MO)，在150℃的开式烧杯中热老化168小时。溶解气体分析(DGA)是按照IEC 60567进行的，在老化之前和之后，以及单个MO和VO。对不同的DGA故障诊断技术进行了比较。DGA数据表明，产气量随MO/VO比例的变化而变化。虽然随着VO比例的增加，大多数气体的浓度呈下降趋势，但混合油(BO)中C2H6、CO和CO2等气体的生成量大于单独油(MO和VO)。热老化BOs的产气性质与单独MO和VO的产气性质不同。VO和MO分子之间的分子相互作用可能是BOs中较高产气量的原因。BOs气的形成机理有待进一步研究。

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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2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP)

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