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[1] Wu, K*., Chen, Z., Li, J., et al. Wettability effect on nanoconfined water flow. PNAS. 2017,114(13): 3358-3363.SCI, IF=11.205
[2] Wu, K*., Chen, Z., Li, J., et al. Manipulating the flow of nanoconfined water by temperature stimulation. Angewandte Chemie International Edition. 2018,57(28): 8432-8437.SCI, IF=15.336
[3] Wu, K*., Chen, Z., Li, X. Real gas transport through nanopores of varying cross-section type and shape in shale gas reservoirs. Chemical Engineering Journal. 2015,281: 813-825.SCI, IF=13.273
[4] Wu, K*., Chen, Z., Li, X., et al. A model for multiple transport mechanisms through nanopores of shale gas reservoirs with real gas effect¨Cadsorption-mechanic coupling. Int.J.Heat Mass Transf. 2016,93: 408-426.SCI, IF=5.584
[5] Wu, K*., Li, X., Wang, C., et al. A model for gas transport in microfractures of shale and tight gas reservoirs. AIChE Journal. 2015,61(6): 2079-2088.SCI, IF=3.993
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[7] Wu, K*., Chen, Z., Li, X., et al. Methane storage in nanoporous material at supercritical temperature over a wide range of pressures. Scientific Reports. 2016,6: 33461.SCI, IF=4.379
[8] Wu, K*., Li, X., Guo, C., et al. A Unified Model for Gas Transfer in Nanopores of Shale-Gas Reservoirs: Coupling Pore Diffusion and Surface Diffusion. SPE Journal. 2016,21(05): 1583-1611.SCI, IF=3.478
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[10] Wu, K*., Chen, Z., Li, J., et al. Nanoconfinement Effect on n-Alkane Flow. Journal of Physical Chemistry C. 2019,123: 16456-16461.SCI, IF=4.126
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