2018
DOI: 10.1021/acs.jpcc.8b06780
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Nanoscale Two-Phase Flow of Methane and Water in Shale Inorganic Matrix

Abstract: Both connate water and the injected water through hydraulic fracturing can coexist with methane inside shale nanopores where two-phase flow possibly occurs. Few studies have been pertaining to two-phase flow of water and methane in shale reservoirs at nanoscale. In this work, molecular dynamics simulations are employed to investigate two-phase flow of water and methane in slit-shaped silica nanopores with hydrophilic surfaces. A sandwich structure of water film−methane−water film or a structure of the methane … Show more

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Cited by 88 publications
(51 citation statements)
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References 70 publications
(102 reference statements)
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“…Water preferentially adsorbs on the surfaces because of the significant electrostatic force and hydrogen bond between water molecules and the surfaces 75 . This observation is analogous to water adsorption in silica-based pore structures 69,76 . Increasing the water concentration to 58.82% as shown in Fig.4b leads to an increase in the adsorbed film thickness.…”
Section: Simulation Detailsmentioning
confidence: 57%
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“…Water preferentially adsorbs on the surfaces because of the significant electrostatic force and hydrogen bond between water molecules and the surfaces 75 . This observation is analogous to water adsorption in silica-based pore structures 69,76 . Increasing the water concentration to 58.82% as shown in Fig.4b leads to an increase in the adsorbed film thickness.…”
Section: Simulation Detailsmentioning
confidence: 57%
“…Fig. 13b shows an increased hydrocarbon velocity for an initial increase in the water concentration which has been attributed to the creation of smoother surfaces for hydrocarbon flow 69 . However, when the water concentration is increased, the width of the water bridge progressively increases (shown in Fig S10), thereby hampering hydrocarbon flow.…”
Section: Fig 12mentioning
confidence: 95%
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