2002
DOI: 10.1002/1522-2683(200210)23:20<3574::aid-elps3574>3.0.co;2-j
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Electroosmotic flow in capillary channels filled with nonconstant viscosity electrolytes: Exact solution of the Navier-Stokes equation

Abstract: The partial differential equation describing unsteady velocity profile of electroosmotic flow (EOF) in a cylindrical capillary filled with a nonconstant viscosity electrolyte was derived. Analytical solution, based on the general Navier-Stokes equation, was found for constant viscosity electrolytes using the separation of variables (Fourier method). For the case of a nonconstant viscosity electrolyte, the steady-state velocity profile was calculated assuming that the viscosity decreases exponentially in the di… Show more

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Cited by 14 publications
(13 citation statements)
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“…(23) suggests that the integration can be analytically carried out only for specific values of the flow behavior index, n such as 1, 1 2 , and 1 3 .…”
Section: Exact Solutions Of Electroosmotic Flow Of Power-law Fluids Imentioning
confidence: 99%
See 2 more Smart Citations
“…(23) suggests that the integration can be analytically carried out only for specific values of the flow behavior index, n such as 1, 1 2 , and 1 3 .…”
Section: Exact Solutions Of Electroosmotic Flow Of Power-law Fluids Imentioning
confidence: 99%
“…(23) can be analytically evaluated only under certain circumstances, in the following we will present an approximate approach to obtain the velocity distributions from Eq. (23). Mathematically, the hyperbolic sine function can be approximated as…”
Section: Approximate Analytical Solutions Of Electroosmotic Flow Of Pmentioning
confidence: 99%
See 1 more Smart Citation
“…It is worth noting that the existing models of electrokinetic phenomena in polymer‐coated surfaces involve simple electrolyte solutions . An interesting exception is , where the EOF was calculated by considering nonuniform (Newtonian) fluid viscosities near the capillary wall. A questionable aspect, however, is the definition of the plane of shear with the associated ζ ‐potential.…”
Section: Fundamentalsmentioning
confidence: 99%
“…Electroviscous effects in steady, fully developed, pressure-driven flow of powerlaw liquids through a cylindrical microchannel have numerically been investigated by Bharti et al [23], using a finite difference method. Otevrel and Kleparnik [24] theoretically calculated the velocity profile of electro-osmotic flow in a cylindrical capillary, assuming that the viscosity decreases exponentially in the direction from the wall to the capillary center. With the implementation of an approximate scheme for the hyperbolic sine function initially introduced by Philip and Wooding [6], an approximate analytical solution for velocity distribution in electro-osmotic flow of power-law fluids through slit microchannels has been presented by Zhao et al [25].…”
Section: Introductionmentioning
confidence: 99%