Blood flow in stenosed arteries with radially variable viscosity, peripheral plasma layer thickness and magnetic field
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Publication:400273
DOI10.1007/S11012-013-9758-ZzbMath1293.76186OpenAlexW2038926434MaRDI QIDQ400273
R. Tamil Selvi, R. Ponalagusamy
Publication date: 21 August 2014
Published in: Meccanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11012-013-9758-z
finite difference methodmagnetic fieldstenosed arteryphase lagoscillatory blood flowperipheral plasma layer
Finite difference methods applied to problems in fluid mechanics (76M20) Magnetohydrodynamics and electrohydrodynamics (76W05) Physiological flows (76Z05) Physiological flow (92C35)
Related Items (9)
Particle-fluid two phase modeling of electro-magneto hydrodynamic pulsatile flow of Jeffrey fluid in a constricted tube under periodic body acceleration ⋮ Study of non-Newtonian blood flow -- heat transfer characteristics in the human coronary system with an external magnetic field ⋮ Magnetohydrodynamic stenosed blood flow through microcirculation with permeable walls ⋮ Steady flow of couple-stress fluid in constricted tapered artery: effects of transverse magnetic field, moving catheter, and slip velocity ⋮ Two-fluid model for blood flow through a tapered arterial stenosis: effect of non-zero couple stress boundary condition at the interface ⋮ Influence of magnetic field and heat transfer on two-phase fluid model for oscillatory blood flow in an arterial stenosis ⋮ Influence of Heat and Mass Transfer on Two-Phase Blood Flow with Joule Heating and Variable Viscosity in the Presence of Variable Magnetic Field ⋮ Numerical investigation on electro-magneto hydrodynamic flow of Jeffrey nanofluid in an inclined tapered arterial stenosis with variable viscosity, variable magnetic field and periodic body force ⋮ Mathematical modelling of time dependent flow of non-Newtonian fluid through unsymmetric stenotic tapered artery: effects of catheter and slip velocity
Cites Work
- Unnamed Item
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- Unnamed Item
- Reliable treatment of a new analytical method for solving MHD boundary-layer equations
- A non-homogeneous constitutive model for human blood. III: Oscillatory flow
- Cell models for micropolar flow past a viscous fluid sphere
- Analytic study on non-Newtonian natural convection boundary layer flow with variable wall temperature on a horizontal plate
- A study on two-layered model (Casson-Newtonian) for blood flow through an arterial stenosis: axially variable slip velocity at the wall
- MHD oscillatory flow of blood through channels of variable cross section
- Two-fluid Casson model for pulsatile blood flow through stenosed arteries: A theoretical model
- Two-layered micropolar fluid flow through stenosed artery: effect of peripheral layer thickness
- Particulate suspension blood flow through a narrow catheterized artery
- Pulsatile magneto-biofluid flow and mass transfer in a non-Darcian porous medium channel
- Computational modeling of biomagnetic micropolar blood flow and heat transfer in a two-dimensional non-Darcian porous medium
- Oscillatory flow of blood in a stenosed artery
- Unsteady blood flow through an indented tube with atherosclerosis
- Numerical solution of a pulsatile flow problem
- Effects of peripheral layer viscosity on blood flow through the artery with mild stenosis
- Effect of a magnetic field on blood flow through an indented tube in the presence of erythrocytes
- Flow of Eringen fluid (simple microfluid) through an artery with mild stenosis
- Influence of viscous dissipation and radiation on unsteady MHD free-convection flow past an infinite heated vertical plate in a porous medium with time-dependent suction
- MHD flow of an elastico-viscous fluid under periodic body acceleration
- Oscillatory flow in a tube of time-dependent curvature. Part 1. Perturbation to flow in a stationary curved tube
- A finite element analysis of laminar unsteady flow of viscoelastic fluids through channels with non‐uniform cross‐sections
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