A scientific outcome of wall shear stress on dusty viscoelastic fluid along heat absorbing in an inclined channel

The theme of this article is to inspect the scientific and theoretical outcomes of wall shear stress on dusty viscoelastic fluid. Where the flow is taken in between inclined vertical plates with the angle of inclination alpha from the x-axis. The governing equation for fluid and dust particles is formulated as a set of the partial differential equation. The perturbed solution is finding out by Poincare-Lighthill perturbation technique (PLPT). Results are obtained and plotted in graphs by using Mathcad-15 software. It is finding out that the increase of inclination angle controls the flow of fluid and dust particles.

Automated summary

This article examines the effects of wall shear stress on the flow of dusty viscoelastic fluid. The governing equation for fluid and dust particles is formulated as a set of partial differential equations. The perturbed solution is obtained using the Poincare-Lighthill perturbation technique (PLPT) and plotted using Mathcad-15 software. It is found that the increase of inclination angle controls the flow of fluid and dust particles.