Determination of the Effective Electrical Conductivity of a Fluid–Saturated Core from Computed Tomography Data

被引:0
作者
M. I. Epov
E. P. Shurina
D. V. Dobrolyubova
A. Yu. Kutishcheva
S. I. Markov
N. V. Shtabel’
E. I. Shtan’ko
机构
[1] Siberian Research Institute of Geology,
[2] Geophysics and Mineral Resources,undefined
[3] Trofimuk Institute of Petroleum-Gas Geology and Geophysics,undefined
[4] Siberian Branch of the Russian Academy of Sciences,undefined
[5] Novosibirsk State Technical University,undefined
来源
Izvestiya, Physics of the Solid Earth | 2023年 / 59卷
关键词
core; digital model; mathematical simulation; multiscale finite element method; electrical conductivity;
D O I
暂无
中图分类号
学科分类号
摘要
Abstract—This paper proposes a technique for determining the effective specific electrical conductivity of rock samples when their digital models are used. A modified algorithm for reconstructing the internal structure of the sample from the core’s nondestructive imaging data can be used to construct a relevant discrete model that approximates the pore space with a high degree of accuracy. Unlike existing approaches, the reconstructed discrete geometric model of a heterogeneous medium sample is hierarchical and oriented to the application of parallel computational schemes of multiscale finite element methods for a forward mathematical simulation of electromagnetic processes. The paper presents the results of solving the problem of determining the effective specific electrical conductivity of fluid–saturated rock samples and compares them with the data from laboratory experiments.
引用
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页码:672 / 681
页数:9
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  • [1] Bao J.Q.(2014)A coupled finite element method for the numerical simulation of hydraulic fracturing with a condensation technique Eng. Fract. Mech. 131 269-281
  • [2] Fathi E.(2015)Structure of productive clinoform horizon by seismic data Geofizika 1 10-18
  • [3] Ameri S.(2016)Study of geological and technological model of complex reservoirs of Samotlor field oil and gas deposits, Geol. Oil Gas Eng. Min. 15 246-260
  • [4] Butorin A.V.(2006)Recent progress in robust and quality Delaunay mesh generation J. Comput. Appl. Math. 195 8-23
  • [5] Chusovitin A.A.(2012)Numerical homogenization of electric characteristics of media with contrast small-scale inclusions Dokl. Earth Sci. 442 97-99
  • [6] Timchuk A.S.(2017)Numerical simulation of fracking in shale rocks: current state and future approaches Arch. Comput. Methods Eng. 24 281-317
  • [7] Grachev S.I.(2007)A pore-network-modeling approach to predict petrophysical properties of diatomaceous reservoir rock SPE Reservoir Eval. Eng. 10 597-608
  • [8] Du Q.(2014)Extended finite element method for predicting productivity of multifractured horizontal wells Math. Probl. Eng. 2014 810493-26
  • [9] Wang D.(2010)Finite element modeling of the vertebra with geometry and material properties retrieved from CT-Scan Data, Ser.: Mech. Eng. 8 19-222
  • [10] Epov M.I.(2016)The behaviour of fracture growth in sedimentary rocks: a numerical study based on hydraulic fracturing processes Energies 9 169-117
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