Long Wavelength Approximation to Peristaltic Motion of Micropolar Fluid with Wall Effects

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摘要 Peristaltic motion of an incompressible micropolar fluid in a two-dimensional channel with wall effects is studied.Assuming that the wave length of the peristaltic wave is large in comparison to the mean half width of the channel,a perturbation method of solution is obtained in terms of wall slope parameter,under dynamic boundary conditions.Closed form expressions are derived for the stream function and average velocity and the effects of pertinent parameters on these flow variables have been studied.It has been observed that the time average velocity increases numerically with micropolar parameter.Further,the time average velocity also increases with stiffness in the wall.

作者 Gurunath.C.Sankad G.Radhakrishnamacharya J.V.Ramanamurthy

机构地区 Department of Mathematics

出处《Advances in Applied Mathematics and Mechanics》 SCIE 2010年第2期222-237,共16页 应用数学与力学进展（英文）

关键词 Peristaltic motion micropolar fluid dynamic boundary conditions

分类号 O35 [理学—流体力学]

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Advances in Applied Mathematics and Mechanics

2010年第2期

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Long Wavelength Approximation to Peristaltic Motion of Micropolar Fluid with Wall Effects

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