Semi Cylindrical Non-Tactile Capacitive Sensor: Equipotential Contour and Electrical Field Analysis

E. A. Hasso, L. Abdulkareem
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Abstract

The use of Non-Tactile Semi Cylindrical Capacitive Sensors is quite common in petroleum applications. While these devices are comparatively inexpensive and effective way of measurements in horizontal pipes, they lack the required accuracy in vertical pipes applications. The measurements have shown a drift of up to 35%, when 500 ml water is used as a test sample, due to spatial variation of the electric field inside the sensor. In order to analyse the situation, a two-dimensional mapping of the electric field and equipotential lines inside the sensor has been numerically calculated by employing finite difference method model using MATLAB programming environment. The electric field diversifies spatially across the cross-sectional area of the pipe and a non-homogeneous distribution has been shown by the results. This compromises the accuracy of semi cylindrical sensors in vertical pipes application.
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半圆柱形非触觉电容式传感器:等电位轮廓与电场分析
非触觉半圆柱形电容式传感器在石油应用中非常普遍。虽然这些设备在水平管道中是相对便宜和有效的测量方法,但它们在垂直管道应用中缺乏所需的精度。测量结果显示,当使用500毫升水作为测试样本时,由于传感器内部电场的空间变化,漂移高达35%。为了分析这种情况,在MATLAB编程环境下,采用有限差分法模型对传感器内部的电场和等势线的二维映射进行了数值计算。结果表明,电场在管道横截面积上呈非均匀分布。这就影响了垂直管道中半圆柱形传感器的精度。
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