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Fast numerical simulation method for two-dimensional magnetotelluric field

A numerical simulation and electromagnetic field technology, applied in the fields of electrical/magnetic exploration, CAD numerical modeling, complex mathematical operations, etc. Abnormal body, time-consuming formation of coefficient matrix, etc., to achieve the effect of reducing calculation time, efficient solution, and high parallelism

Active Publication Date: 2022-04-08
CENT SOUTH UNIV
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Problems solved by technology

Integral equation method faces huge challenges when calculating large-scale anomaly models; finite element method grid division and coefficient matrix formation are relatively time-consuming, which limits its application in large-scale electromagnetic exploration; finite difference method uses Structured grids, it is difficult to deal with undulating terrain and complex anomalies
Moreover, with the increase of the calculation scale of these numerical simulation methods, the calculation time and calculation memory increase nonlinearly, which greatly limits the forward and inverse interpretation of large-scale magnetotelluric exploration.

Method used

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  • Fast numerical simulation method for two-dimensional magnetotelluric field
  • Fast numerical simulation method for two-dimensional magnetotelluric field
  • Fast numerical simulation method for two-dimensional magnetotelluric field

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Embodiment 1

[0065] see figure 1 , this embodiment provides a fast numerical simulation method for two-dimensional magnetotelluric field, the specific process is as follows:

[0066] Step S1: Construct the conductivity distribution model of the two-dimensional medium, specifically:

[0067] Design a two-dimensional geoelectric model based on the shape, size and conductivity distribution of the study area, and determine the calculation frequency and measuring point layout.

[0068] Put the constructed two-dimensional geoelectric model along the horizontal direction ( y axis), depth direction ( z axis) for meshing and recording along y axis, z The number of grid nodes divided in the axis direction is , y axis, z The lengths between adjacent nodes in the axial direction are denoted as ;

[0069] According to the electrical distribution of the underground medium, the conductivity of each node is assigned respectively, and then the conductivity distribution model of the two-dimensio...

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Abstract

The invention provides a fast numerical simulation method for a two-dimensional magnetotelluric field, which combines a finite element method with Fourier transform, transforms a two-dimensional partial differential problem into a mutually independent one-dimensional ordinary differential problem among different wave numbers by performing Fourier transform along the horizontal direction, is high in parallelism degree, effectively reduces the calculation amount, and improves the calculation efficiency. The calculation efficiency is improved; conditions are provided for refined numerical simulation of the magnetotelluric method under a large-scale condition; through verification, a result calculated by adopting the method disclosed by the invention is within an error rod range of international public data recorded in the Zhdanov et al.1997 literature, is close to a mean value, and meets a precision requirement.

Description

technical field [0001] The invention relates to the technical field of geophysical methods, in particular to a fast numerical simulation method of a two-dimensional magnetotelluric field. Background technique [0002] The magnetotelluric method is a frequency-domain electromagnetic prospecting method, which uses the natural electromagnetic field of vertical incidence in the high altitude (the frequency band is 10 -4 -10 4 Hz) to realize the detection of underground geological structures and abnormal bodies, which has the advantages of simple operation, high work efficiency, low cost, and large detection depth. At present, this method has been widely used in geological exploration, metal ore and oil and gas resource exploration, geodynamics research and other fields, and has achieved more and more obvious economic and social benefits. However, the successful implementation of this method depends on the forward and inverse interpretation of the subsurface geological model. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/23G06F17/14G06F17/12G01V3/38G06F111/10
CPCY02A90/30
Inventor 吉杭郭荣文柳建新李伟
Owner CENT SOUTH UNIV
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