Add to ORKGThe present paper deals with a mathematical model of blood flow through narrow circular tube. The model\ud consists of a core region of suspension of all the erythrocytes assumed to be a power law fluid and a peripheral\ud cell-depleted layer of plasma as a Newtonian fluid. The system of differential equations has been solved\ud analytically. The expressions for velocity profile, Bluntness parameter, flow rate, the ratio of core hematocrit to\ud discharge hematocrit (Hc/HD), apparent viscosity (µapp), and the ratio of tube hematocrit to discharge\ud hematocrit (HT/HD) and shear stress at the wall have obtained. Some of them have been discussed through\ud graphs.\u
In this talk, we consider blood in small vessels modeled as an incompressible shear-thinning fluid i...
The constitution of blood demands a yield stress fluid model, and among the available yield stress f...
Engineering analysis is applied to two problems: (1) an experimental study of time-dependent blood f...
A two-fluid model consisting of a core region of suspension of all the erythrocytes (particles) in p...
ABsrRAcr As an idealized problem of the motion of blood in small capillary blood vessels, the low Re...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
A two-fluid model consisting of a core region of suspension of all the erythrocytes (particles) in p...
Blood and erythrocyte suspensions have non-linear pressure-flow curves and so do not possess a uniqu...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
In this paper flow of blood through a narrow catheterized artery with axially non-symmetrical stenos...
The aim of this dissertation is to develop theoretical models for the motion of rigid and flexible p...
AbstractA mathematical model has been presented for periodic blood flow in a rigid circular tube of ...
Pulsatile flow of a two-fluid model for blood flow through stenosed narrow arteries is studied throu...
The paper presents the two-phase model to describe blood flow in large and in small blood vessels. B...
The constitution of blood demands a yield stress fluid model, and among the available yield stress f...
In this talk, we consider blood in small vessels modeled as an incompressible shear-thinning fluid i...
The constitution of blood demands a yield stress fluid model, and among the available yield stress f...
Engineering analysis is applied to two problems: (1) an experimental study of time-dependent blood f...
A two-fluid model consisting of a core region of suspension of all the erythrocytes (particles) in p...
ABsrRAcr As an idealized problem of the motion of blood in small capillary blood vessels, the low Re...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
A two-fluid model consisting of a core region of suspension of all the erythrocytes (particles) in p...
Blood and erythrocyte suspensions have non-linear pressure-flow curves and so do not possess a uniqu...
As an idealized problem of the motion of blood in small capillary blood vessels, the low Reynolds nu...
In this paper flow of blood through a narrow catheterized artery with axially non-symmetrical stenos...
The aim of this dissertation is to develop theoretical models for the motion of rigid and flexible p...
AbstractA mathematical model has been presented for periodic blood flow in a rigid circular tube of ...
Pulsatile flow of a two-fluid model for blood flow through stenosed narrow arteries is studied throu...
The paper presents the two-phase model to describe blood flow in large and in small blood vessels. B...
The constitution of blood demands a yield stress fluid model, and among the available yield stress f...
In this talk, we consider blood in small vessels modeled as an incompressible shear-thinning fluid i...
The constitution of blood demands a yield stress fluid model, and among the available yield stress f...
Engineering analysis is applied to two problems: (1) an experimental study of time-dependent blood f...