Investigation of the content of unsaturated hydrocarbons in transformer oils using IR spectroscopy

Power engineering: research, equipment, technology Pub Date : 2024-01-11 DOI:10.30724/1998-9903-2023-25-5-3-19

M. Garifullin, Y. N. Slobodina, A. R. Bikzinurov, R. A. Giniatullin, V. A. Chernyshov

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Abstract

THE PURPOSE. To analyze the current understanding of unsaturated hydrocarbons with double C=C bonds in mineral transformer oils and evaluate the effectiveness of modern methods of controlling the content of these compounds in oils. Develop an instrumental way to control unsaturated compounds in mineral oils by means of IR spectroscopy. Study the change in the content of unsaturated hydrocarbons in oils during thermal degradation. Study the effectiveness of the adsorption purification of oils to remove unsaturated compounds from oils. METHODS. To determine the content in mineral oils of unsaturated hydrocarbons used IR spectroscopy in the near infrared spectral region. Artificial thermal degradation of oils was carried out at temperatures of 100 and 150 ºC. For adsorption purification of oils silica gels brands KSKG, AS230SH, as well as Fuller's Earth adsorbent were used. RESULTS. Spectral range 4750÷4500 cm-1 and method of IR spectra transformation were chosen to control the content of unsaturated compounds with double C=C bonds in the oil. As a result of model experiments, it is clearly demonstrated that the content of unsaturated hydrocarbons increases with increasing degree of thermal degradation of oils. It is shown that adsorption purification has a low efficiency with respect to unsaturated compounds. An algorithm for differentiation of fresh mineral transformer oils produced by hydrocracking technology from the regenerated oils is proposed. CONCLUSION. The highest content of unsaturated compounds is contained in mineral oils produced by technologies other than hydrocracking. Thermo-oxidative impact on oil during its operation leads to an increase in the content of unsaturated hydrocarbons in the oil. The content of unsaturated hydrocarbons in the mineral transformer oil characterizes the degree of degradation of its hydrocarbon base that cannot be recovered during regeneration.

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利用红外光谱分析变压器油中不饱和碳氢化合物的含量

目的分析目前对矿物变压器油中具有双 C=C 键的不饱和碳氢化合物的认识，评估控制油中这类化合物含量的现代方法的有效性。开发一种利用红外光谱控制矿物油中不饱和化合物的仪器方法。研究热降解过程中油中不饱和碳氢化合物含量的变化。研究油类吸附净化法去除油类中不饱和化合物的效果。方法：使用近红外光谱区的红外光谱来确定矿物油中不饱和碳氢化合物的含量。在 100 和 150 ºC 的温度下对油类进行人工热降解。在吸附净化油类时，使用了硅胶品牌 KSKG、AS230SH 以及富勒土吸附剂。结果选择 4750÷4500 cm-1 光谱范围和红外光谱转换方法是为了控制油中具有双 C=C 键的不饱和化合物的含量。模型实验结果清楚地表明，不饱和碳氢化合物的含量随着油类热降解程度的增加而增加。实验表明，吸附净化法对不饱和化合物的净化效率较低。还提出了一种算法，用于区分通过加氢裂化技术生产的新鲜矿物变压器油和再生油。结论。通过加氢裂化以外的技术生产的矿物油中不饱和化合物含量最高。油品在运行过程中受到热氧化影响，导致油品中不饱和碳氢化合物含量增加。矿物变压器油中不饱和碳氢化合物的含量表明其碳氢化合物基础的降解程度，这种降解在再生过程中是无法恢复的。

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Power engineering: research, equipment, technology

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