FRACTAL ANALYSIS FOR PERMEABILITY OF MULTIPLE SHALE GAS TRANSPORT MECHANISMS IN ROUGHENED TREE-LIKE NETWORKS

Fractals Pub Date : 2024-03-27 DOI:10.1142/s0218348x24500580
YIDAN ZHANG, BOQI XIAO, YANBIN WANG, GUOYING ZHANG, YI WANG, HAORAN HU, GONGBO LONG
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Abstract

In this work, a new gas transport model for shale reservoirs is constructed by embedding randomly distributed roughened tree-like bifurcation networks into the matrix porous medium. We constructed apparent permeability models for different shale gas flow mechanisms based on fractal theory, taking into account the effects of relative roughness and surface diffusion. The effects of bifurcation structure parameters as well as shale gas parameters on different apparent permeabilities are systematically analyzed. It is found that the permeability generally shows a decreasing trend with the increase in pore pressure, but the effect on viscous flow is inconsiderable. In addition, larger porosity, fractal dimension and bifurcation levels lead to increased permeability of different mechanisms. Whereas, the increase in the bifurcation levels implies a greater flow resistance, resulting in a decreased permeability. In addition, The relative roughness hinders the development of total permeability but favors surface diffusion permeability. Moreover, larger length ratios and diameter ratios are beneficial to the shale gas flow.

粗糙树状网络中多种页岩气输送机制的渗透率分形分析
在这项工作中,通过在基质多孔介质中嵌入随机分布的粗糙树状分叉网络,构建了一种新的页岩储层气体输送模型。考虑到相对粗糙度和表面扩散的影响,我们基于分形理论构建了不同页岩气流机制的表观渗透率模型。系统分析了分叉结构参数以及页岩气参数对不同表观渗透率的影响。结果发现,随着孔隙压力的增加,渗透率一般呈下降趋势,但对粘性流动的影响不大。此外,较大的孔隙度、分形维度和分叉水平会导致不同机制的渗透率增加。而分叉水平的增加意味着流动阻力增大,从而导致渗透率降低。此外,相对粗糙度会阻碍总渗透性的发展,但有利于表面扩散渗透性。此外,较大的长度比和直径比有利于页岩气的流动。
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