[PDF][PDF] A non-newtonian fluid model for blood flow using power-law through an atherosclerotic arterial segment having slip velocity
ABSTRACT A mathematical model is developed in this paper for studying blood flow
through an atherosclerotic artery with slip velocity at wall. A power law fluid model of the …
through an atherosclerotic artery with slip velocity at wall. A power law fluid model of the …
Blood Flow in Arteries with Stenoses: A Three-Dimensional Unsteady Flow
HG Bai, MP Jeyanthi, P Hemavathy… - Journal of Positive …, 2022 - mail.journalppw.com
Three-dimensional unsteady blood flow in arteries with two axisymmetric stenoses of
dilation of 25% was mathematically investigated in this work. Hemodynamic parameters …
dilation of 25% was mathematically investigated in this work. Hemodynamic parameters …
A Numerical Simulation of Pressure Variation in Arteries affected by Stenosis
HG Bai - Research Journal of Pharmacy and Technology, 2017 - indianjournals.com
This paper is mainly concerned with the effect of pressure variations in different dilations of
stenotic arteries. In this study, we numerically analyzed unsteady blood flow in stenotic …
stenotic arteries. In this study, we numerically analyzed unsteady blood flow in stenotic …
Blood Flow in Arteries with Stenoses: A Three-Dimensional Unsteady Flow.
H Girija Bai, M Prasanna Jeyanthi… - Journal of Positive …, 2022 - search.ebscohost.com
Three-dimensional unsteady blood flow in arteries with two axisymmetric stenoses of
dilation of 25% was mathematically investigated in this work. Hemodynamic parameters …
dilation of 25% was mathematically investigated in this work. Hemodynamic parameters …
[PDF][PDF] Three Dimensional Unsteady Flow of Blood in Arteries with Multiple Stenoses
HG BaI, KB Naidu, GV Kumar - Proceedings of the National … - conference.bonfring.org
In this study, three dimensional unsteady blood flow in arteries with two axisymmetric
stenoses of dilation of 25% has been numerically analyzed. Using computational fluid …
stenoses of dilation of 25% has been numerically analyzed. Using computational fluid …