FRACTAL STUDY ON THE PERMEABILITY IN CHARGED MICRO-FRACTURED POROUS MEDIA

Fractals Pub Date : 2024-01-27 DOI:10.1142/s0218348x24500208
WENYAN LIU, YUZENG DUAN, BOQI XIAO, LIANG LUO, MINGQING ZOU, MINGCHAO LIANG
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Abstract

Fractured porous media is of great significance to the exploration and development of unconventional reservoirs. In this paper, a fractal model for permeability through micro-fractured porous media with consideration of the electric double layer (EDL) effect is proposed based on the fractal theory. The present model indicates that the permeability is a function of the electrokinetic parameters and micro-structural parameters of fractured porous media, and each parameter has a clear physical meaning, the results from the proposed model are found to be in good agreement with experimental data. Moreover, factors influencing the permeability are also analyzed in detail. The results indicate that the more obvious EDL effects will lead to permeability becoming lower. The present fractal model for the permeability with the EDL effect can provide guidance for tight reservoir development or other micro-porous media transportation.

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带电微裂隙多孔介质渗透性的分形研究
断裂多孔介质对非常规储层的勘探和开发具有重要意义。本文以分形理论为基础,提出了考虑电双层(EDL)效应的微裂隙多孔介质渗透率分形模型。本模型表明,渗透率是断裂多孔介质的电动参数和微结构参数的函数,每个参数都有明确的物理意义,所提模型的结果与实验数据十分吻合。此外,还详细分析了影响渗透率的因素。结果表明,EDL 效应越明显,渗透率越低。本带有 EDL 效应的渗透率分形模型可为致密储层开发或其他微孔介质输送提供指导。
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