2019
DOI: 10.1016/j.ijheatmasstransfer.2019.118571
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Multiple diffusion mechanisms of shale gas in nanoporous organic matter predicted by the local diffusivity lattice Boltzmann model

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Cited by 35 publications
(43 citation statements)
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“…(2) Currently, despite the fact that the multiscale simulations have been successfully conducted by coupling molecular and pore-scale simulations, the upscaling strategies of MD simulations are generally modifying the parameters of the boundary conditions or flow equations (analytical models) to consider the nanoscale effect into pore-scale simulations. Can the MD simulations be promoted to directly simulate pore-scale simulations, for example, by some coarse granulation methods or machine learning to save computational cost?…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…(2) Currently, despite the fact that the multiscale simulations have been successfully conducted by coupling molecular and pore-scale simulations, the upscaling strategies of MD simulations are generally modifying the parameters of the boundary conditions or flow equations (analytical models) to consider the nanoscale effect into pore-scale simulations. Can the MD simulations be promoted to directly simulate pore-scale simulations, for example, by some coarse granulation methods or machine learning to save computational cost?…”
Section: Discussionmentioning
confidence: 99%
“…They claimed that the surface diffusion is the most important contributor for gas transport in organic matter, even for the entire shale matrix. A similar strategy was reported by Yin et al, who triumphantly conducted the three-dimensional pore-scale investigations on a shale matrix with heterogeneity and anisotropy factors using a local diffusivity-modified LBM model.…”
Section: Pore-scale Simulationsmentioning
confidence: 94%
“…Adsorbed gas and free gas in the organic matrix increase as the TOC content increases, while the amount of free gas in the inorganic matrix is not affected by the TOC content. In shale gas plays, adsorbed gas is a non-ignorable component in shale gas reserve calculation [27,39,[53][54][55], and gas ad-/desorption is important in the study of gas flow behaviors [56][57][58][59]. If we analyze the case further, we could ask how much adsorbed gas could be produced during shale gas production, and how significantly gas ad-/desorption affects gas transient flow behaviors in shale gas reservoirs.…”
Section: Adsorbed Gasmentioning
confidence: 99%
“…Yao et al [17] studied the lifting gas leakage mechanism of damaged flexible composite materials and analyzed the influence of different types of damage on lifting gas leakage; this was of significance for the study of the damage-induced lifting gas leakage of envelope materials. The structure of an envelope material is different from that of carbon-fiber-reinforced composite laminates, and the mechanism of lifting gas diffusion caused by damage is different [18]. To study the lifting gas diffusion of an envelope material, it is necessary to establish a corresponding theoretical model according to its structural characteristics and use new experimental methods to obtain more accurate results.…”
Section: Introductionmentioning
confidence: 99%