Phase field study on electrical treeing under combined AC/DC voltage based on bipolar barrier transfer model

电植树 空间电荷 材料科学 电压 双极结晶体管 介电强度 电介质 电气工程 电场 机械 降级(电信) 电子工程 局部放电 光电子学 工程类 物理 晶体管 电子 量子力学
作者
Gaoyi Shang,Yingman Sun,Ming Chen,Yuhang Shao,Minjie Li,Hao Tang,Xining Li,Xuandong Liu
出处
期刊:Journal of Applied Physics [American Institute of Physics]
卷期号:134 (16) 被引量:4
标识
DOI:10.1063/5.0172470
摘要

The study of insulation degradation processes is crucial for the reliable operation of power equipment and electronic devices. The phase field method has been widely used in recent years to simulate the degradation process of insulation materials. However, the effect of space charge was ignored. In this paper, a novel phase field method based on the bipolar carrier transfer model is suggested. This model can simulate degradation under different temperatures and DC or combined AC/DC voltage. The cases under AC and combined AC/DC voltage at different temperatures are simulated by COMSOL. Methods to ensure model convergence are proposed. The results show that the field strength distribution under a combined AC/DC field is more uniform, especially for negative polarity. For the same voltage form, temperature and breakdown time show an exponential relationship. The results are consistent with those of previous experimental studies, proving the usability of the model. In addition, the processes of initiation, growth, and breakdown stage of the dielectric degradation process, as well as the stagnation period, are explored theoretically. The stagnation time at low temperatures under combined AC/negative DC voltage is long. The research in this paper is useful for insulation optimization design, condition assessment, and longevity prediction.

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