Flow Analysis of Two-Layer Nano/Johnson–Segalman Fluid in a Blood Vessel-like Tube with Complex Peristaltic Wave

Zeeshan, A.; Riaz, Arshad; Alzahrani, Faris; Moqeet, A.

doi:10.1155/2022/5289401

Cited by 16 publications

(2 citation statements)

References 45 publications

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“…Generally, in bio-fuid-dynamics at various instances blood fow regarded as the fow of immiscible fuids. Researchers considered blood fow as two immiscible fuids [30,31]. In immiscible blood layers, researchers consider the blood plasma, the upper layer, as one fuid, and red and white blood cells, the lower layers, as second immiscible fuid.…”

Section: Introductionmentioning

confidence: 99%

Hydromagnetic Flow of Two Immiscible Couple Stress Fluids in an Inclined Porous Channel: Effects of Slip Boundary

Bitla

Sitotaw

2023

Mathematical Problems in Engineering

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In this study, we investigated the effects of slip boundary and magnetic field on the flow of two immiscible couple stress fluids in an inclined porous media channel. The Stokes model was used to define the two couple stress fluids. The fluids in both the regions are assumed to be incompressible and immiscible and the transport properties in the two regions are assumed to be constant. The governing coupled linear ordinary differential equations are made dimensionless by using appropriate fundamental quantities. The expressions for the velocity components in both the regions are obtained in closed form using the undetermined coefficient method; by applying slip boundary condition at the boundary of the channel and at fluid-fluid interface, the continuity of velocities, vorticities, shear stresses, and couple stresses are applied. The effects of the nondimensional parameters including the couple stress parameters, slip parameter, Hartmann number, Darcy number, and the ratio of basic fluid properties on the velocity components are presented graphically; the flow rate and shear stress are presented in table and discussed briefly. It is reported that the presence of couple stresses and magnetic field have a declining impact while slip boundary has an enhancement impact on the fluid velocity and the volumetric flow rate. In the absence of couple stress, the results for the liming case as s ⟶ ∞ η ⟶ 0 for Newtonian flow are achieved and further limiting cases are established and briefly addressed.

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Section: Introductionmentioning

confidence: 99%

Hydromagnetic Flow of Two Immiscible Couple Stress Fluids in an Inclined Porous Channel: Effects of Slip Boundary

Bitla

Sitotaw

2023

Mathematical Problems in Engineering

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“…Microfluidic devices have wide applications in science and engineering fields, such as in cell culture systems to drug delivery, detection of bacteria and viruses, etc. In [5] the authors focused on the mathematical modelling and analysis of some important aspects of such flows in a channel with complex waves. In their paper, they considered uniformly distributed solid particles in the flow which they claimed to be non-conducting.…”

Section: Introductionmentioning

confidence: 99%

The Transient Electroosmotic Flow of Maxwell Fluids and Heat Transfer in a Parallel Microchannel Using Caputo Fractional Derivative

Tahiru

Yakubu

Abdulhameed

et al. 2023

DDF

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In this work, we consider transient electroosmotic flow of fractional Maxwell fluids model derived for both velocity and temperature in a micro-channel. We use the Poisson-Boltzmann equation to describe the potential electric field applied along the length of the micro-channel. Exact solutions of both velocity and temperature were obtained using Laplace transform combined with finite Fourier sine transform. Due to the complexity of the equations for velocity and temperature, the inverse Laplace transform was obtained using the numerical inversion formula based on Gaver Stehfest’s algorithms. The numerical solutions were simulated with the help of Mathcard software and the graphical results showing the effects of time, relaxation time, electrokinetic width and fractional parameters on the velocity of the fluid flow and the effects of time and fractional parameter on the temperature distribution in the microchannel were presented and discussed. The results show that the applied electric field, the electroosmotic force, electrokinetic width, and relaxation time play vital role on the velocity profile in the micro-channel and the fractional parameter can be used to regulate both the velocity and temperature in the micro-channel. The effects of the various influential parameters on both fluid velocity and temperature distribution were found to be useful for the design of microfluidic devices. These devices could be useful for biomedical diagnosis and analysis, for clinical detection of viruses and bacteria in biological processes. Keywords: Caputo fractional derivative, Electro kinetic width, Electroosmotic flow, Heat transfer, Zeta potential,

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Electromagnetic effects on two-layer peristalsis flow of Powell–Eyring nanofluid in axisymmetric channel

Khan,

Fatima,

Sait

et al. 2024

J Therm Anal Calorim

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Flow Analysis of Two-Layer Nano/Johnson–Segalman Fluid in a Blood Vessel-like Tube with Complex Peristaltic Wave

Cited by 16 publications

References 45 publications

Hydromagnetic Flow of Two Immiscible Couple Stress Fluids in an Inclined Porous Channel: Effects of Slip Boundary

Hydromagnetic Flow of Two Immiscible Couple Stress Fluids in an Inclined Porous Channel: Effects of Slip Boundary

The Transient Electroosmotic Flow of Maxwell Fluids and Heat Transfer in a Parallel Microchannel Using Caputo Fractional Derivative

Electromagnetic effects on two-layer peristalsis flow of Powell–Eyring nanofluid in axisymmetric channel

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