The Mixed Finite Element Method with Surface Current Boundary Condition for Modeling Geological Fracture

机译：具有表面电流边界条件的混合有限元法模拟地质裂缝

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To accelerate the simulation of geological fractures by numerical method, a mixed finite element method (FEM) with surface current boundary condition (SCBC) is proposed. It is the combination of the transverse components of vectorial Helmholtz equation and the Gauss' law in mixed FEM that makes the system matrix good conditioned so as to restrain the low-frequency breakdown phenomenon. In addition, the fracture, through which the electric field distribution is modeled by SCBC, is represented geometrically by a one-dimensional line instead of a thin layer. The method effectively reduces the degrees of freedom and save CPU time, avoiding the local mesh refinement. We demonstrate this method by computing the secondary electric field scattered by a thin layer of hydrocarbon.

机译：为了通过数值方法加速地质裂缝的模拟，提出了一种具有表面电流边界条件（SCBC）的混合有限元方法（FEM）。混合有限元法中矢量Helmholtz方程的横向分量与高斯定律的结合使系统矩阵具有良好的条件，从而抑制了低频击穿现象。另外，通过SCBC建模通过其进行电场分布的裂缝，是用一维线而不是薄层来表示的。该方法有效地降低了自由度并节省了CPU时间，避免了局部网格的细化。我们通过计算由碳氢化合物薄层散射的二次电场来演示此方法。

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来源
《International Conference on Computational Electromagnetics》|2018年|1-3|共3页
会议地点 Chengdu(CN)
作者
Xuanying Hou; Na Liu; Qing Huo Liu;
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作者单位

Xiamen University Institute of Electromagnetics and Acoustics China;

Duke University Department of Electrical and Computer Engineering USA;

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Boundary conditions; Mathematical model; Finite element analysis; Electric breakdown; Surface cracks; Geology;

机译：边界条件;数学模型;有限元分析;电击穿;表面裂纹；地质学;

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The Mixed Finite Element Method with Surface Current Boundary Condition for Modeling Geological Fracture

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