Influence of Nanoparticles on Blood Through Peristaltic Flow Along a Vertical Porous Sinusoidal Channel in the Presence of Radiation and Heat Generation/Absorption

Abstract

In this thesis, a closed form solution is obtained for peristaltic flow along a vertically porous sinusoidal channel. There are five chapters in this thesis. Chapter one covers the whole introduction with literature review. Chapter two is composed for basic concepts used in this study. This includes certain key concepts and basic laws. Chapter three comprises the description of a research paper by D. Tripathi [27]. This paper presents the study of unsteady peristaltic flow across a channel with finite width and porous medium. The above said paper has been reviewed and graphs are also plotted. In the thesis we extended the reviewed work for the effects of nanoparticles on blood through a vertical porous sinusoidal channel with radiation and heat generation . absorption cases. This work has not been yet discussed in literature. In a restricted domain, the proceeding equations for temperature, transverse velocity, pressure gradient, axial velocity, volume flow rate, shear stresses at walls, average volume flow and stream function were solved. by plotting the graphs of temperature profile, velocity profile wall shear stress, efflux limit, and stream lines, the effect of different parameters has been analyzed, Conclusions of entire study have discussed in chapter five.