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W4313366908 startingPage "983" @default.
W4313366908 abstract "The theoretical analysis for the mass transfer process of an oscillatory electroosmotic flow (EOF) in the fractional Jeffrey fluid model is studied through a polyelectrolyte layer (PEL) coated cylindrical annulus with reversible and irreversible wall reactions. The ion partitioning effect is observed due to the difference in permittivity of the PEL and the electrolyte solution, which is accounted for by the Born energy. Considering ion partitioning effects, analytical solutions for induced potential and axial velocity are presented, respectively in both the PEL and electrolyte region from the modified Poisson-Boltzmann equation and the Cauchy momentum equation with a proper constitutive equation, respectively. The Maxwell fluid and classical viscous Newtonian fluid models can be achieved separately by adjusting the relaxation and retardation time in the constitutive equation of this model. The analytical solution of the convection-diffusion equation for solute transport is established in the full domain. The separation of species is found to be dependent mainly on the Damköhler number, absorption parameter, phase partitioning coefficient, etc. It is observed that the osmotic pressure increases with the thickness and fixed charge density of the PEL. The velocity decreases with an increase in the permittivity difference of these layers. Our results suggest that the separation may be achieved through a difference in absorption kinetics." @default.
W4313366908 created "2023-01-06" @default.
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W4313366908 date "2023-01-01" @default.
W4313366908 modified "2023-09-26" @default.
W4313366908 title "Impact of hydrodynamics and rheology of the ion partitioning effect on electrokinetic flow through a soft annulus with a retentive and absorptive wall" @default.
W4313366908 cites W1951746903 @default.
W4313366908 cites W1967558970 @default.
W4313366908 cites W1969326068 @default.
W4313366908 cites W1972160746 @default.
W4313366908 cites W1975954450 @default.
W4313366908 cites W1980980118 @default.
W4313366908 cites W1988018356 @default.
W4313366908 cites W1998245776 @default.
W4313366908 cites W2001313208 @default.
W4313366908 cites W2007261039 @default.
W4313366908 cites W2007446526 @default.
W4313366908 cites W2012794041 @default.
W4313366908 cites W2029650991 @default.
W4313366908 cites W2051793597 @default.
W4313366908 cites W2055205691 @default.
W4313366908 cites W2060219259 @default.
W4313366908 cites W2060503533 @default.
W4313366908 cites W2060608249 @default.
W4313366908 cites W2062369089 @default.
W4313366908 cites W2067623470 @default.
W4313366908 cites W2070119979 @default.
W4313366908 cites W2074941649 @default.
W4313366908 cites W2080455786 @default.
W4313366908 cites W2084579076 @default.
W4313366908 cites W2085986001 @default.
W4313366908 cites W2091493601 @default.
W4313366908 cites W2092144527 @default.
W4313366908 cites W2095217690 @default.
W4313366908 cites W2103207402 @default.
W4313366908 cites W2103492462 @default.
W4313366908 cites W2104623735 @default.
W4313366908 cites W2130166533 @default.
W4313366908 cites W2137648882 @default.
W4313366908 cites W2143331248 @default.
W4313366908 cites W2167381746 @default.
W4313366908 cites W2183496164 @default.
W4313366908 cites W2412355576 @default.
W4313366908 cites W2506727573 @default.
W4313366908 cites W2561501948 @default.
W4313366908 cites W2750930894 @default.
W4313366908 cites W2758372241 @default.
W4313366908 cites W2771946610 @default.
W4313366908 cites W27727037 @default.
W4313366908 cites W2793774765 @default.
W4313366908 cites W2803764842 @default.
W4313366908 cites W2806870571 @default.
W4313366908 cites W2887246903 @default.
W4313366908 cites W2930351102 @default.
W4313366908 cites W2948459617 @default.
W4313366908 cites W2954695584 @default.
W4313366908 cites W2965731325 @default.
W4313366908 cites W2980185381 @default.
W4313366908 cites W3013299511 @default.
W4313366908 cites W3037740808 @default.
W4313366908 cites W3045249479 @default.
W4313366908 cites W3080737084 @default.
W4313366908 cites W3081830642 @default.
W4313366908 cites W3110826947 @default.
W4313366908 cites W3114161541 @default.
W4313366908 cites W3187771894 @default.
W4313366908 cites W3191069288 @default.
W4313366908 cites W4250806518 @default.
W4313366908 cites W4287983233 @default.
W4313366908 cites W640422019 @default.
W4313366908 doi "https://doi.org/10.1039/d2sm01094a" @default.
W4313366908 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36637071" @default.
W4313366908 hasPublicationYear "2023" @default.
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