Monte Carlo Simulation of Relative Permeability in Fractal Porous Media with capacity pressure difference effect

机译：分形多孔介质中相对渗透率的蒙特卡罗模拟及容压差效应

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The relative permeability of fractal porous media is simulated which takes into account the capillary pressure difference effect by Monte Carlo technique in this work. Base on the fractal character of pore size distribution in porous media, the models for pore diameter and for relative permeability are developed which consider the capillary pressure difference effect. Taking the bi-dispersed fractal porous media as examples, the relative permeability calculations are performed by the Monte Carlo method. The results show that the simulations agree well with the existing fractal analytical solution and the available experimental data. The proposed simulation method may have the potential in prediction of other transport properties in fractal porous media.

机译：模拟了分形多孔介质的相对渗透率，并考虑了蒙特卡罗技术对毛细管压差的影响。基于多孔介质中孔径分布的分形特征，建立了考虑毛细管压差效应的孔径和相对渗透率模型。以双分散分形多孔介质为例，相对渗透率的计算采用蒙特卡罗方法。结果表明，仿真结果与现有的分形解析解和可用的实验数据吻合良好。所提出的模拟方法可能具有预测分形多孔介质中其他传输特性的潜力。

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来源
《8th International Topical Meeting on Nuclear Thermal-Hydraulics, Operation and Safety.》|2010年|p.462-481|共20页
会议地点 Shanghai(CN);Shanghai(CN)
作者
Yanjun Liu; Ting Yang; Yuan Zhou; Xulun Jiang;
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作者单位

Nuclear power institute of China, 2nd sub-institute;

Nuclear power institute of China, 2nd sub-institute;

Nuclear power institute of China, 2nd sub-institute;

Nuclear power institute of China, 2nd sub-institute;

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原文格式 PDF
正文语种 eng
中图分类水资源开发;水资源开发;
关键词
fractal; relative permeability; porous media; capacity pressure difference;

机译：分形相对磁导率多孔介质容量压力差;

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1. Prediction of Relative Permeability of Unsaturated Porous Media Based on Fractal Theory and Monte Carlo Simulation [J] . Boqi Xiao, Jintu Fan, Feng Ding Energy & fuels . 2012,第NOVaaDECa期

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2. Permeability of fractal porous media by Monte Carlo simulations [J] . Boming Yu, Mingqing Zou, Yongjin Feng International Journal of Heat and Mass Transfer . 2005,第13期

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3. Research on Relative Permeability of Nanofibers with Capillary Pressure Effect by Means of Fractal-Monte Carlo Technique [J] . Xiao Boqi, Chen Hanxin, Xiao Sanxia, Journal of nanoscience and nanotechnology . 2017,第9期

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4. Monte Carlo Simulation of Relative Permeability in Fractal Porous Media with capacity pressure difference effect [C] . Yanjun Liu, Ting Yang, Yuan Zhou, International Topical Meeting on Nuclear Thermal-Hydraulics, Operation and Safety . 2010

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5. The development of pore-scale network models for the simulation of capillary pressure - saturation - interfacial area - relative permeability relationships in multi-fluid porous media. [D] . Reeves, Paul Charles. 1997

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Monte Carlo Simulation of Relative Permeability in Fractal Porous Media with capacity pressure difference effect

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