粒子(生态学)
材料科学
机油分析
状态监测
石油工程
计算机科学
工程类
电气工程
地质学
海洋学
作者
Yibing Yin,Lei Song,Yuan Zhi,Qiang Zhang,HuanLei Chi,Long Feng,Zhenhua Wen
标识
DOI:10.1109/jsen.2024.3402669
摘要
Heavy equipment gear transmission system require monitoring of wear particles in lubricating oil to assess the degree of wear and predict failure. Compared to the traditional detection method, electrostatic sensor is an innovative online sensor for wear particle monitoring due to its high sensitivity and strong capability of early fault warning. This study presents a new spiral-shaped probe electrostatic sensor (S.P.E.S) and derives an analytical mathematical model of point charges on a spiral-shaped probe based on the physical model. To obtain a deeper understanding of the spiral-shaped probe, a finite element model was developed by using COMSOL software to explore the sensing characteristics and spatial static sensitivity of the spiral probe. Furthermore, experimental studies were conducted to investigate the dynamic sensitivity. The findings indicate that the sensitivity distribution of SPES is asymmetric due to the asymmetric structure of the probe. The simulation analysis and experimental provide a scientific basis for the design of spiral-probe sensor.
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