Peristaltic Flow with Maxwell Carbon Nanotubes Suspensions

Peristaltic flow analysis is recycled to study the movement and heat allocation of Maxwell carbon nano tubes in an irregular canal with the occurrence of compelling field. This is the first paper on the peristaltic flow with Maxwell carbon nanotubes (CNTs) suspensions in an asymmetric channel. Two forms of carbon nanotubes, specifically, "single- and multi-wall carbon nanotubes" are used through water as sordid fluids. The observed relationships are used for the thermo-physical possessions of CNTs in positions of the dense capacity segment of CNTs. The leading calculations are abridged using "long wavelength and low Reynolds number approximation." Exact solutions have been evaluated for "velocity, pressure gradient, the solid volume fraction" of the CNTs and temperature silhouette. The possessions of various flow parameters, i.e., "Hartmann number M, the solid volume fraction of the nanoparticles phi, Grashof number G(r) and Prandtl number P-r are presented graphically for both single- (SWCNT) and multi-wall carbon nanotubes (MWCNT)."