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Lattice-Boltzmann simulation of microscale CH_4 flow in porous rock subject to force-induced deformation 被引量:15

Lattice-Boltzmann simulation of microscale CH_4 flow in porous rock subject to force-induced deformation
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摘要 Accurate knowledge of the influence of rock deformation on the permeability of fluid flow is of great significance to a variety of engineering applications, such as simultaneous extraction of coal and gas, oil/gas exploitation, CO2 geological sequestration, and underground water conservation. Based on the CT representation of pore structures of sandstones, a LBM(Lattice Boltzmann Method) for simulating CH4 flow in pore spaces at microscale levels and a parallel LBM algorithm for largesize porous models are developed in this paper. The properties of CH4 flow in porous sandstones and the effects of pore structure are investigated using LBM. The simulation is validated by comparing the results with the measured data. In addition, we incorporate LBM and FEM to probe the deformation of microstructures due to applied triaxial forces and its influence on the properties of CH4 flow. It is shown that the proposed method is capable of visually and quantitatively describing the characteristics of microstructure, spatial distribution of flow velocity of CH4,permeability, and the influences of deformation of pore spaces on these quantities as well. It is shown that there is a good consistency between LBM simulation and experimental measurement in terms of the permeability of sandstone with various porosities. Accurate knowledge of the influence of rock deformation on the permeability of fluid flow is of great significance to a variety of engineering applications, such as simultaneous extraction of coal and gas, oil/gas exploitation, CO2 geological sequestration, and under- ground water conservation. Based on the CT representation of pore structures of sandstones, a LBM (Lattice Boltz- mann Method) for simulating CH4 flOW in pore spaces at microscale levels and a parallel LBM algorithm for large- size porous models are developed in this paper. The properties of CH4 flow in porous sandstones and the effects of pore structure are investigated using LBM. The simu- lation is validated by comparing the results with the mea- sured data. In addition, we incorporate LBM and FEM to probe the deformation of microstructures due to applied triaxial forces and its influence on the properties of CH4 flow. It is shown that the proposed method is capable of visually and quantitatively describing the characteristics of microstructure, spatial distribution of flow velocity of CH4,permeability, and the influences of deformation of pore spaces on these quantities as well. It is shown that there is a good consistency between LBM simulation and experi- mental measurement in terms of the permeability of sandstone with various porosities.
出处 《Chinese Science Bulletin》 SCIE EI CAS 2014年第26期3292-3303,共12页
基金 supported by the National Natural Science Foundation for Distinguished Young Scholars of China (51125017) the National Natural Science Foundation of China (51374213) the National Basic Research Program of China (2010CB226804, 2011CB201201)
关键词 格子玻尔兹曼方法 岩石变形 多孔模型 微尺度流动 甲烷 LBM模拟 天然气开采 受力 Fluid flow - Permeability Porous rockLattice Boltzmann Method (LBM) Structuraldeformation
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