Herschel-Bulkley Peristaltic Movement in a Deformable Cylinder
DOI:
https://doi.org/10.17762/msea.v71i4.1384Abstract
Using the Herschel-Bulkley model in a malleable cylinder, scientists have simulated the impact of slip speed on the peristaltic flow of blood. When it comes to quickness, plug stream speed, and volume transfer, the arrangements of a closed structure are what you want. It can be shown that a variety of factors, including yield pressure, adequate percentage, Darcy number, speed slip parameter, flexible parameters, and liquid conduct record, play crucial roles in regulating the motion of a flexible cylinder. As the data from the streams shows, the volume transition in a malleable cylinder decreases as the permeability parameter is larger, and it increases as the slip parameter grows larger. Furthermore, graphical displays and breakdowns of the outcomes predicted by the Newtonian, Bingham plastic, and Power-law models have been provided.