变压器油
粘度
闪点
材料科学
大豆油
粘度指数
热力学
变压器
化学
复合材料
有机化学
基础油
扫描电子显微镜
电压
物理
量子力学
食品科学
作者
Hanbo Zheng,Hongce Lan,Ke Wang,Shengwei Cai,Tao Yang,Yi Li,Yang Wang
标识
DOI:10.1109/tdei.2025.3528311
摘要
Many studies have shown that natural ester insulating oil is an excellent transformer oil with a superior flash point, fire resistance, and renewability compared to mineral insulating oil. However, due to their molecular properties, the high viscosity of natural ester insulating oils results in poor heat transfer, limiting their safe application in transformers. In this paper, the viscosity values of the soybean oil-based natural ester insulating oil are measured experimentally in the temperature range of 293 K to 433 K. The micro-mechanisms affecting the viscosity of natural ester insulating oil are investigated in conjunction with molecular dynamics simulations. We also conducted a correlation analysis between specific heat and viscosity and the simulation results. In addition, the kinematic viscosity of natural ester insulating oils as a function of temperature is also obtained in this paper by the free volume theory. The temperature ranges from 293 K to 433 K, and the functional model closely agrees with the experimental measurements. The research in this paper can be informative for the study and prediction of the viscosity of natural ester insulating oils as well as for the study of thermal conductivity.
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