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W4310191294 startingPage "4234" @default.
W4310191294 abstract "Hysteretic pressure-sensitive permeability of nanohybrids composed of substantial nanopores is critical to characterizing fluid flow through nanoporous media. Due to the nanoscale effect (gas slippage), complex and heterogeneous pore structures of nanoporous media, the essential controls on permeability hysteresis of nanohybrids are not determined. In this study, a hysteretic pressure sensitive permeability model for nitrogen flow through dry nanoporous media is proposed. The derived model takes into account the nanoscale effect and pore deformation due to effective stress. The model is validated by comparing it with the experimental data. The results show that the calculated permeability and porosity are consistent with the measured results with the maximum relative error of 6.08% and 0.5%, respectively. Moreover, the hysteretic pressure-sensitive permeability of nanohybrids is related to effective stress, gas slippage, pore microstructure parameters, grain quadrilateral angle, and the loss rate of grain quadrilateral angle. The nanoscale effect is crucial to the permeability of nanoporous media. In addition, as impacted by the comprehensive impact of multiple relevant influential parameters, permeability during the pressure unloading process is not a monotonous function but presents complicated shapes. The proposed model can explain, quantify, and predict the permeability hysteresis effect of nanoporous media reasonably well." @default.
W4310191294 created "2022-11-30" @default.
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W4310191294 date "2022-11-28" @default.
W4310191294 modified "2023-10-05" @default.
W4310191294 title "An Analytical Model for Hysteretic Pressure-Sensitive Permeability of Nanoporous Media" @default.
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W4310191294 doi "https://doi.org/10.3390/nano12234234" @default.
W4310191294 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36500859" @default.
W4310191294 hasPublicationYear "2022" @default.
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