2018
DOI: 10.1016/j.ces.2018.04.055
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Capillary filling of confined water in nanopores: Coupling the increased viscosity and slippage

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Cited by 65 publications
(40 citation statements)
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“…Several values of C have been obtained through fitting efforts in recent years. 41,54 Among them, Wu's work related to the obtainment of C should be highlighted, which is different from other research and only fitted by molecular simulation data, rather than utilizing experimental data. 41 Wu believes that nanoscale experimental results will be easily affected by wall roughness, nanobubbles, operation conditions and so on, which therefore cannot simulate the precise water slip phenomenon.…”
Section: Water Viscosity In the Elliptical Nanoporesmentioning
confidence: 94%
“…Several values of C have been obtained through fitting efforts in recent years. 41,54 Among them, Wu's work related to the obtainment of C should be highlighted, which is different from other research and only fitted by molecular simulation data, rather than utilizing experimental data. 41 Wu believes that nanoscale experimental results will be easily affected by wall roughness, nanobubbles, operation conditions and so on, which therefore cannot simulate the precise water slip phenomenon.…”
Section: Water Viscosity In the Elliptical Nanoporesmentioning
confidence: 94%
“…In most of the previous studies on fluid flow in nanochannels this variation in spatial viscosity, which could affect the effective shear viscosity, was not taken into consideration. This could be one of the factors accountable for the discrepancies observed in slip length and flow rate enhancement, and efforts should be directed towards addressing this challenge [156][157][158][159][160][161].…”
Section: Simulationmentioning
confidence: 99%
“…The L–W model assumes several ideal conditions such as incompressible Newtonian fluids, neglects the effect of gravity, uniform pore size and pore distribution, no evaporation, no effect due to hydrophobic barriers, laminar flow, and a single-phase fluid [ 50 ]. In Table 1 , are summarized some of the most notorious L–W modified equations that address the phenomena in more realistic scenarios such as the one proposed by Camplisson et al, which includes evaporation effects, Equation (2) [ 51 ], Jahanshahi et al for gravitational effects, Equation (3), [ 52 ] the Hong and Kim equation, Equation (4), which account for differences in contact angle due to hydrophobic barriers [ 53 ], and the Feng et al equation that considers the effects due to viscosity and slippage [ 54 ]. Several other approaches are extensively reviewed in the research done by Cai et al [ 50 ].…”
Section: Paper and Fibrous Materials As A Complete Platform For Biosensorsmentioning
confidence: 99%