微裂缝对致密多孔介质中气体渗流的影响机制

采用考虑正则化过程的微尺度格子Boltzmann模型研究微裂缝对致密多孔介质中气体渗流的影响机制。首先采用漫反射滑移边界条件,并考虑正则化过程构建适用于高努森数下多孔介质中气体流动模拟的微尺度格子Boltzmann模型,基于该模型进行二维裂缝性致密多孔介质中的气体流动模拟,研究微裂缝对致密多孔介质中气体渗流的影响,并构建二维并联孔隙模型模拟揭示微裂缝对致密多孔介质气体渗流的影响机制。结果表明:微裂缝的存在能够明显提高致密多孔介质的渗透率,且连通性裂缝的影响更明显;随着压力的升高,微裂缝提高致密介质气体渗透率的作用增强,随着压力减小,基岩与裂缝中的气体流速差别减小,基岩对多孔介质渗透率的贡献增加...

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Bibliographic Details
Published in中国石油大学学报(自然科学版) Vol. 42; no. 1; pp. 90 - 98
Main Author 赵建林;姚军;张磊;杨永飞;孙海;孙致学;白玉湖
Format Journal Article
LanguageChinese
Published 中国石油大学石油工程学院,山东青岛,266580%中海油研究总院,北京,100028 2018
Subjects
格子Boltzmann方法;致密多孔介质;微裂缝;微尺度效应
致密多孔介质
microscale effect
微裂缝
micro-fractures
lattice Boltzmann method
格子Boltzmann方法
tight porous media
微尺度效应
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Summary:采用考虑正则化过程的微尺度格子Boltzmann模型研究微裂缝对致密多孔介质中气体渗流的影响机制。首先采用漫反射滑移边界条件,并考虑正则化过程构建适用于高努森数下多孔介质中气体流动模拟的微尺度格子Boltzmann模型,基于该模型进行二维裂缝性致密多孔介质中的气体流动模拟,研究微裂缝对致密多孔介质中气体渗流的影响,并构建二维并联孔隙模型模拟揭示微裂缝对致密多孔介质气体渗流的影响机制。结果表明:微裂缝的存在能够明显提高致密多孔介质的渗透率,且连通性裂缝的影响更明显;随着压力的升高,微裂缝提高致密介质气体渗透率的作用增强,随着压力减小,基岩与裂缝中的气体流速差别减小,基岩对多孔介质渗透率的贡献增加,当压力极大或极小时,裂缝与基岩中平均流速比趋于定值,微裂缝的影响趋于稳定;微裂缝能够提高致密多孔介质渗透率的主要原因是在压降方向上微裂缝与基岩形成了并联高渗通道。
Bibliography:lattice Bohzmann method; tight porous media; micro-fractures; mieroscale effect
In this paper,a microscale lattice Boltzmann(LB) model with a regularization procedure was adopted to investigate the effects of micro-fractures on gas flow in tight porous media.By adopting a diffuse reflection boundary condition and the regularization procedure,the microscale LB model was established,which is suitable to simulate gas flow in porous media with high Knudsen numbers.The mechanisms of gas flow in fractured tight porous media were also analyzed.Finally,a parallel slit pore model was established to investigate the influencing mechanisms of micro-fractures on gas flow in tight porous media.The simulation results show that the micro-fractures can significantly improve the permeability of the tight porous media and the effects of interconnected micro-fractures are more obvious.With the increase of pressure,the effects of micro-fractures increase,and the effects of micro-fractures tend to be stable at both high pressure an
ISSN:1673-5005
DOI:10.3969/j.issn.1673-5005.2018.01.011