Mathematical Modelling of Buried Electrode Resistivity Response from a Three-Layered Conductive Medium Containing Transitional Layers

IF 0.4 Q4 MATHEMATICS
Kiattiyot Juagwon, W. Sripanya
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Abstract

Abstract In this work, we study the depth of a buried current electrode that constitutes an effect on the electric potential in a transition multilayer earth. A three-layered earth model is applied to simulate the data of electric potential. The model assumes that an overburden with the thickness has a constant conductivity over the layers of material having the feather of specific conductivity. The model is composed of a set of partial differential equations defined on the spatial domain. The Hankel transform is applied to derive equations defined on the wave number domain from the original problem. On the wave number domain, the analytic solution is determined by solving a boundary value problem. The achieved equations are then transformed back to get the equations defined on the spatial domain. The results of electric potential generated by the three-layered earth model are plotted and compared to indicate the behavior in response to different positions of current source while the parameters in the model are approximately assigned.
含过渡层的三层导电介质中埋极电阻率响应的数学建模
摘要在这项工作中,我们研究了埋置电流电极的深度,它对过渡多层地球中的电势构成了影响。应用三层地球模型对电势数据进行了模拟。该模型假设具有一定厚度的覆盖层在具有比电导率羽毛的材料层上具有恒定的电导率。该模型由一组在空间域上定义的偏微分方程组成。Hankel变换用于从原始问题导出在波数域上定义的方程。在波数域上,解析解是通过求解边值问题来确定的。然后将所获得的方程变换回来,以得到在空间域上定义的方程。绘制并比较了三层地球模型产生的电势的结果,以指示在近似分配模型中的参数时对电流源的不同位置的响应行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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