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Unsteady Flow of a Dusty Visco-Elastic Fluid Through an Incliend Channel

Unsteady Flow of a Dusty Visco-Elastic Fluid Through an Incliend Channel
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摘要 The present discussion deals with the study of an unsteady flow of a dusty fluid through an inclined channel under the influence of pulsatile pressure gradient along with the effect of a uniform magnetic field. The analytical solutions of the problem are obtained using variable separable and Fourier transform techniques. The graphs drawn for the velocity fields of both fluid and dust phase under the effect of Reynolds number. The velocity profiles for the liquid and the dust particles decreases at different values of time t increases. As the visco-elastic parameter λ increases the velocity of the liquid and the dust particles deceases. When relaxation time parameter σ increases, the velocity of the liquid and dust particles decreases. The present discussion deals with the study of an unsteady flow of a dusty fluid through an inclined channel under the influence of pulsatile pressure gradient along with the effect of a uniform magnetic field. The analytical solutions of the problem are obtained using variable separable and Fourier transform techniques. The graphs drawn for the velocity fields of both fluid and dust phase under the effect of Reynolds number. The velocity profiles for the liquid and the dust particles decreases at different values of time t increases. As the visco-elastic parameter λ increases the velocity of the liquid and the dust particles deceases. When relaxation time parameter σ increases, the velocity of the liquid and dust particles decreases.
出处 《Advances in Pure Mathematics》 2011年第4期187-192,共6页 理论数学进展(英文)
关键词 DUSTY FLUID PULSATILE Pressure Gradient VELOCITIES of Dust and FLUID Phase Inclined CHANNEL REYNOLDS Number Dusty Fluid Pulsatile Pressure Gradient Velocities of Dust and Fluid Phase Inclined Channel Reynolds Number
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