Babar Iftikhar scite author profile

The aim of the present article is to investigate the influence of gravity and slip velocity on the steady flow of blood through an inclined catheterized blood vessel. The constitutive relation of Herschel–Bulkley fluid is utilized to capture the non-Newtonian characteristics of the blood. The effects of catheter radius, yield stress, slip velocity and the inclination angle on the velocity, flow rate, wall shear stress and resistance to the flow are analyzed in detail. The expression of velocity is evaluated numerically by using Regula falsi method. The variation of different flow variables corresponding to the involved geometric and rheologic parameters is shown through graphs. It is shown that the velocity decreases as the yield stress attains higher values. The yield stress enhances the impedance and wall shear stress. Increase in the catheter radius reduces the wall shear stress and resistive impedance. The study also reveals that the impedance for horizontal blood vessel is higher as compared to the vertical blood vessel.

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Dynamics of magnetohydrodynamic and ferrohydrodynamic natural convection flow of ferrofluid inside an enclosure under non-uniform magnetic field

Iftikhar¹,

Siddiqui²,

Javed³

2023

Alexandria Engineering Journal

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Natural convective flow of non-isothermal hybrid nanofluid inside the cavity with the influence of a heated fin and non-linear thermal radiation: Second law analysis

Iftikhar

Javed

Siddiqui

2023

Materials Today Communications

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Babar Iftikhar

Entropy generation analysis during MHD mixed convection flow of non-Newtonian fluid saturated inside the square cavity

Computational analysis of heat transfer via heatlines for MHD natural convection ferrofluid flow inside the U-shaped cavity

Numerical treatment of slip velocity and catheterization on the gravity flow of non-Newtonian fluid model through a uniform blood vessel

Dynamics of magnetohydrodynamic and ferrohydrodynamic natural convection flow of ferrofluid inside an enclosure under non-uniform magnetic field

Natural convective flow of non-isothermal hybrid nanofluid inside the cavity with the influence of a heated fin and non-linear thermal radiation: Second law analysis

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