Bioconvection Peristaltic Transport of Nanofluid in a Channel containing Gyrotactic microorganism
Authors
Asha. S. K and Sunitha G
Abstract
This \u00a0research \u00a0paper \u00a0is \u00a0deals \u00a0with \u00a0the \u00a0behavior \u00a0of \u00a0gyrotactic in \u00a0peristaltic \u00a0transport \u00a0of \u00a0nano
Eyring-Powell \u00a0fluid \u00a0in \u00a0non-uniform \u00a0channel. \u00a0The \u00a0advantages \u00a0of \u00a0adding \u00a0motile \u00a0micro-organism \u00a0to \u00a0the
nanofluid \u00a0suspension \u00a0enhanced \u00a0the \u00a0heat \u00a0transfer, \u00a0mass \u00a0transfer \u00a0and \u00a0improve \u00a0the \u00a0nanofluids \u00a0stability. \u00a0The
governing equations have been fabricated for long wavelength and low Reynolds number assumptions. The
solutions have been described for pressure gradient, temperature, nanoparticle concentration and density of
motile \u00a0microorganism \u00a0equations \u00a0and \u00a0solved \u00a0by \u00a0using \u00a0powerful \u00a0technique \u00a0known \u00a0as \u00a0Homotopy \u00a0Analysis
Method \u00a0(HAM). \u00a0Results \u00a0are \u00a0reported \u00a0for \u00a0different \u00a0values \u00a0of \u00a0the \u00a0some \u00a0significant \u00a0parameters \u00a0on \u00a0peristaltic
transport through a non-uniform channel and obtained results are displayed in graphs.
