Theoretical analysis of metallic nanoparticles on blood flow through stenosed artery with permeable walls

“…Exact solutions for stream function, temperature profile and pressure gradient can be written as (20) where Ω 1 −Ω 6 are constants evaluated using Mathematica 9. The dimensionless pressure rise ΔP is obtained as follows:…”

Section: Solution Profilesmentioning

confidence: 99%

“…This attracted many authors to study the heat transfer of nanofluids [12] in a vast set of geometries, such as vertical plates [13], porous stretching sheet [14], nonlinearly stretching sheet [15]. In modern day mechanics several authors [16][17][18][19][20][21][22][23][24][25][26] have studied the flow behaviors of nanoparticles for different type of nanofluids.…”

Section: Introductionmentioning

confidence: 99%

Bio mathematical venture for the metallic nanoparticles due to ciliary motion

Akbar

Butt

2016

Computer Methods and Programs in Biomedicine

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“…Chakravarty and Sannigrahi [8] discussed the flow-field in a porous stenotic artery when it is subjected to a single cycle of body acceleration and the simulated artery is taken as an isotropic elastic tube containing a viscous incompressible fluid representing the flowing blood. Nadeem and Ijaz [9] studied the physical characteristics of blood flow in the presence of stenosis and nanoparticles through a curved channel with permeable walls. Back et al [10] measured the pressure distributions through a hollow vascular axisymmetric replica of a segment of the left circumflex human coronary artery with the mildly atherosclerotic diffuse disease.…”

Section: Introductionmentioning

confidence: 99%

Variable-viscosity thermal hemodynamic slip flow conveying nanoparticles through a permeable-walled composite stenosed artery

2017

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This paper presents a mathematical model for simulating viscous, incompressible, steady-state blood flow containing copper nanoparticles and coupled heat transfer through a composite stenosed artery with permeable walls. Wall slip hydrodynamic and also thermal buoyancy effects are included. The artery is simulated as an isotropic elastic tube, following Joshi et al (2009), and a variable viscosity formulation is employed for the flowing blood. The equations governing the transport phenomena are non-dimensionalized and the resulting boundary value problem is solved analytically in the steady state subject to physically appropriate boundary conditions. Numerical computations are conducted to quantify the effects of relevant hemodynamic, thermophysical and nanoscale parameters emerging in the model on velocity and temperature profiles, wall shear stress, impedance resistance and also streamline distributions. The model may be applicable to drug fate transport modeling with nanoparticle agents and also the optimized design of nanoscale medical devices for diagnosing stenotic diseases in circulatory systems.

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Theoretical analysis of metallic nanoparticles on blood flow through stenosed artery with permeable walls

Cited by 77 publications

References 27 publications

Examination of nanoparticles as a drug carrier on blood flow through catheterized composite stenosed artery with permeable walls

Examination of nanoparticles as a drug carrier on blood flow through catheterized composite stenosed artery with permeable walls

Bio mathematical venture for the metallic nanoparticles due to ciliary motion

Variable-viscosity thermal hemodynamic slip flow conveying nanoparticles through a permeable-walled composite stenosed artery

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