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CO2和He在阳泉煤CH4饱和基质煤柱中的渗流特性 被引量:2
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作者 汤放新 杨建丽 +2 位作者 肖勇 刘振宇 Niels van Wageningen 《燃料化学学报》 EI CAS CSCD 北大核心 2011年第2期94-98,共5页
利用自行设计的自约束渗透装置,采用热导检测器在线跟踪穿透实验过程中CO2或He的渗透信号,在40℃条件下,对比研究了CO2和He在阳泉煤CH4饱和基质煤柱(φ6×13mm)中的渗透行为,讨论了煤对气体的吸附或吸取作用及孔隙气压对渗透率的影... 利用自行设计的自约束渗透装置,采用热导检测器在线跟踪穿透实验过程中CO2或He的渗透信号,在40℃条件下,对比研究了CO2和He在阳泉煤CH4饱和基质煤柱(φ6×13mm)中的渗透行为,讨论了煤对气体的吸附或吸取作用及孔隙气压对渗透率的影响。研究表明,有别于煤对He的作用,在CO2和CH4交替渗透时,不同的CH4吹扫时间,对应于不同的CO2初始穿透时间。CO2穿透后被CH4吹扫36h,在煤柱中仍有残留,表明煤对CO2具有相对较强的吸着作用。He在煤柱中穿透后没有明显残留,并且He在测试煤柱中渗透率明显大于CO2的渗透率。在测试条件下,气体交替渗透多次的稳定渗透率无明显变化,表明煤柱的结构没有发生显著变化。由于孔壁效应、煤基质膨胀、吸附边界层等因素的存在,使得气体渗透率随孔隙气体压力的增加而降低。 展开更多
关键词 CO2 CH4 渗透率 穿透实验
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Time-Lapse 3-D Seismic Wave Simulation via the Generalized Multiscale Finite Element Method
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作者 Yongchae Cho Richard L.Gibson,Jr. +2 位作者 Hyunmin Kim Mikhail Artemyev Yalchin Efendiev 《Communications in Computational Physics》 SCIE 2020年第6期401-423,共23页
Numerical solution of time-lapse seismic monitoring problems can be challenging due to the presence of finely layered reservoirs.Repetitive wave modeling using fine layered meshes also adds more computational cost.Con... Numerical solution of time-lapse seismic monitoring problems can be challenging due to the presence of finely layered reservoirs.Repetitive wave modeling using fine layered meshes also adds more computational cost.Conventional approaches such as finite difference and finite element methods may be prohibitively expensive if the whole domain is discretized with the cells corresponding to the grid in the reservoir subdomain.A common approach in this case is to use homogenization techniques to upscale properties of subsurface media and assign the background properties to coarser grid;however,inappropriate application of upscaling might result in a distortion of the model,which hinders accurate monitoring of the fluid change in subsurface.In this work,we instead investigate capabilities of a multiscale method that can deal with fine scale heterogeneities of the reservoir layer and more coarsely meshed rock properties in the surrounding domains in the same fashion.To address the 3-D wave problems,we also demonstrate how the multiscale wave modeling technique can detect the changes caused by fluid movement while the hydrocarbon production activity proceeds. 展开更多
关键词 Fluid simulation time lapse Generalized multiscale finite element elastic wave
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