Rheology Of Blood Flow With Nano Particles In An Elastic Tube
DOI:
https://doi.org/10.47750/pnr.2022.13.S05.231Keywords:
Peristaltic flow, Elastic tube, non-Newtonian fluid, Micropolar index, Volume flow rateAbstract
The effect of elasticity on the peristaltic flow of a micropolar fluid containing nanoparticles in a cylindrical tube is investigated using a
mathematical model. The expressions for velocity and flux flow rate are determined by using Homotopy Perturbation method, under
long wave length and low Reynold’s number approximations. The variation of flux is calculated by Rubinow and Keller, Muzumdar
methods. Different parameters' effects on velocity and flow have been discussed. For various settings, the trapping phenomenon is
demonstrated. The flux increases as the elasticity parameters, micropolar parameter, thermophoresis parameter, and coupling number
increase. The flux similarly reduces as the Brownian motion parameter is increased. The obtained results are same when we apply
Rubinow and Keller, Muzumdar methods.
