Volatile Acid and Polymer Formation in Various Insulation Liquids Upon Accelerated Thermal Ageing

E. Matić, M. Meissner, S. Schober, M. Mittelbach
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引用次数: 1

Abstract

Insulation liquids perform a vital role in protecting power equipment, such as transformers, from thermal, electrical and environmental stress. Considering the poor fire-safety properties and low biodegradability of mineral oil as the leading kind of insulation liquid, alternative insulation liquids are of high interest for their implementation in power equipment. In this experiment we aimed to simulate the processes occurring in faulty power equipment by ageing four different kinds of insulation liquids (mineral oil, GTL-insulation liquid, synthetic ester and natural ester) under laboratory conditions. The use of optimized analytical routine methods has allowed us to monitor as well as quantify volatile acid and polymer formations upon ageing of insulation liquids. The ageing process under aerated conditions has led to the formation of formic, acetic and propionic acid, especially in natural ester, alongside notable polymerization effects. All other types of insulation liquids showed significantly lower amounts of volatile acids. Per contra, the experiments conducted under oxygen-free conditions resulted in minimal volatile acid and polymer build-ups in all four insulation liquids.
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加速热老化过程中各种绝缘液体中挥发性酸和聚合物的形成
绝缘液体在保护电力设备(如变压器)免受热、电和环境应力的影响方面起着至关重要的作用。矿物油作为主要的绝缘液,由于其防火性能差、生物降解性低等特点,替代绝缘液在电力设备中的应用备受关注。在本实验中,我们旨在通过在实验室条件下老化四种不同的绝缘液(矿物油、gtl绝缘液、合成酯和天然酯)来模拟故障电力设备发生的过程。使用优化的分析常规方法使我们能够监测和量化绝缘液体老化时挥发性酸和聚合物的形成。在曝气条件下的老化过程导致甲酸、乙酸和丙酸的形成,特别是在天然酯中,伴随着显著的聚合效应。所有其他类型的绝缘液体的挥发性酸含量明显较低。相反,在无氧条件下进行的实验导致所有四种绝缘液体中挥发性酸和聚合物的累积最小。
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