Nonlinear model on pulsatile flow of blood through a porous bifurcated arterial stenosis in the presence of magnetic field and periodic body acceleration

Ponalagusamy, R.; Priyadharshini, S.

doi:10.1016/j.cmpb.2017.02.014

Cited by 6 publications

(1 citation statement)

References 28 publications

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“…An investigation of flow dynamics in a tubular channel on arterial stenosis with inclusion of time parameter was also done by Young [3]. These studies invited multi-faceted analyses [4][5][6][7][8][9][10][11][12][13][14][15][16][17] of propagation of Newtonian fluid through constricting channels including factors of magnetic field, body acceleration and pulsatile nature of blood flow. Deshpande et al [18] gave a new dimension to this investigation by developing a scheme to study Newtonian fluid flow through a stenosis that can be described axisymmetrically.…”

Section: Introductionmentioning

confidence: 99%

Role of a structural parameter in modelling blood flow through a tapering channel

Shahid

2018

Bound Value Probl

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An investigation of thixotropic parameter influence on blood flow in a stenosed tapered vessel has been carried out by means of analytical and numerical methods. We have studied how variation of a parameter in a range [0,1], chosen following the evolution of transient shear, flows with time in this particular range and impacts the dynamics of an unsteady, non-Newtonian fluid flow. An approximation of a simpler dynamical system was approached with the help of a particular set of non-dimensional variables. Unique representations of axial velocity, shear stress and flow rate have been made such that their dependence on pressure gradient can be further analysed. Some factors that either impede the flow or help to accelerate it in a narrow channel in addition to varying yield stress and thixotropic parameter have been numerically investigated. The purpose of the current investigation is also to decide whether the particular model parameter regulates the dynamics of flow in a vessel differently from other known non-Newtonian models and what specific range or values of this parameter bring this model's results to coincide with other models' results

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Section: Introductionmentioning

confidence: 99%

Role of a structural parameter in modelling blood flow through a tapering channel

Shahid

2018

Bound Value Probl

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A computational model for cardiovascular hemodynamics and protein transport phenomena

Ilie

2021

Health Technol.

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Electromagnetic Casson blood flow in multistenosed porous artery using Caputo–Fabrizio fractional derivatives

Jamil

Uddin

Roslan

2022

Nanotechnology for Hematology, Blood Transfusion, and Artificial Blood

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Nonlinear model on pulsatile flow of blood through a porous bifurcated arterial stenosis in the presence of magnetic field and periodic body acceleration

Cited by 6 publications

References 28 publications

Role of a structural parameter in modelling blood flow through a tapering channel

Role of a structural parameter in modelling blood flow through a tapering channel

A computational model for cardiovascular hemodynamics and protein transport phenomena

Electromagnetic Casson blood flow in multistenosed porous artery using Caputo–Fabrizio fractional derivatives

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