Cilia-driven flow analysis of cross fluid model in a horizontal channel

A thorough report enveloping an overall development and results for the impact of the laminar cross fluid model with the cilia-driven flow analysis in a horizontal channel is made here. Cross model showing non-Newtonian rheologies in a scope of uses is utilized here. The present equations for momentum and energy additionally transformed into ordinary differential equations of nonlinear type. The structure of equations is then solved numerically with the support of well-known MATLAB technique called bvp4c and graphical presentation of stream function, velocity, pressure rise and pressure gradient is delineated. Moreover, the evaluation between peristaltic and ciliated channel is also highlighted through graphs. Newtonian and shear thinning cases is also discussed. Our proposed model makes a use to concentrate on the propulsion of the fundamental substances via the ductus efferentes where at least one chemical reactions may take place. In view of existing outcomes, one can illustrate pertinent suggestions for the transportation of the cilia regarding chemical impacts within the human body.