Analysis of heat and mass transfer phenomena in peristaltic transportation of hyperbolic tangent fluid in tapered channel

Abbas, Zaheer; Rafiq, Muhammad Yousuf

doi:10.1002/apj.2675

Cited by 22 publications

(8 citation statements)

References 41 publications

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“…Rafiq and Abbas [43] explored the Rabinowitsch fluid model under the influences of thermal radiation and viscous dissipation in the nonuniform inclined annulus following the peristaltic mechanism due to applying velocity and convective slip effects at the tube's walls. Abbas and Rafiq [44] examined heat and mass transport phenomena in the peristaltic process of hyperbolic tangent fluid inside an asymmetric tapered channel. They inquired about the proposed flow in a porous medium by the modified Darcy's law.…”

Section: Introductionmentioning

confidence: 99%

Radiative heat transport of Cattaneo‐Christov double diffusive Casson nanofluid flow between two rotating disks with Hall current and activation energy

Sahoo,

Nandkeolyar

2023

Z Angew Math Mech

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The present research uncovers the mathematical exploration of the magnetohydrodynamic radiative Casson nanofluid flow produced due to stretching and coaxially rotating surfaces of two disks inside a non‐Darcy porous medium under the dominance of the diacritic Hall current and heat generation. The energy field is displayed under the dominance of radiative and dissipative heat transport by involving the consequences of distinctive nonlinear thermal radiation, viscous dissipation, and Joule heating. The present study overcomes the barrier of heat and mass transport by annexing Cattaneo‐Christov double diffusion effects. The current exploration shows the characteristics of the concentration field due to arising chemical reaction incited by activation energy. A substantive mathematical problem is modeled by assigning nonlinear partial differential equations together with convective boundary conditions. A compatible similarity transformation comprised in the current study is exerted to produce a set of nonlinear ordinary differential equations with competent boundary conditions. The resulting mathematical model is numerically solved via dispensing the SLM. The present article deals with an in‐depth exploration of diagnostic flow parameters' attributes against the flow field and efficient physical quantities with the help of distinctive graphs and tables. As per the current investigation, the energy field becomes potent due to enhancing the stretching of each of the disks. Besides, augmenting the thermophoretic diffusion and chemical reaction boosts diluting the concentration of nanoparticles. The flow along the radial direction gets controlled near the upper disk under the increasing influence of the Hall current, intensity of the magnetic field, and stretching rate of the lower disk. On the other hand, the enlarging Casson parameter, rotation parameter, and stretching parameter for the lower disk lead to controlling the flow along the radial direction adjacent to the lower disk. Apart from that, the intense effects of the stretching rate of the upper disk and rotation rein axial flow throughout the flow region.

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Section: Introductionmentioning

confidence: 99%

Radiative heat transport of Cattaneo‐Christov double diffusive Casson nanofluid flow between two rotating disks with Hall current and activation energy

Sahoo,

Nandkeolyar

2023

Z Angew Math Mech

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“…Reddy [6] analyzed heat and mass transfer in peristaltic flow with a magnetic field and velocity slip conditions through a porous medium. Later, several studies [7][8][9][10][11][12][13][14][15][16] were conducted to provide insights into the peristaltic flow for various fluids via different flow geometries under different effects such as Lorentz force, thermal radiation, heat and mass transfer, chemical reaction, wall properties, slip conditions, Joule heating, viscous dissipation and porous medium.…”

Section: Introductionmentioning

confidence: 99%

Electrokinetic peristaltic transport of Bingham‐Papanastasiou fluid via porous media

Aslam,

Noreen

2023

Z Angew Math Mech

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An important rheological mathematical model is created to investigate the rheological impacts of slip velocity and varied zeta potentials in an inclined asymmetric channel. The flow is taken in an isotropic porous medium and is governed by Bingham‐Papanastasiou model. The membrane based pumping analysis is done in a wave frame of reference moving with the speed of the wave. Flow model is simplified by considering small wave number δ, small Reynolds number and small Peclet number . The emerging linearized non‐dimensional system of equations is evaluated for analytical and numerical methods. The effects of sundry parameters on pumping, temperature θ, axial velocity u and trapping have been studied graphically. The viscous model is retrieved for Bingham number or stress growth parameter . Finally, the effects of relevant parameters on heat transfer rate and shear stress at walls are discussed numerically. The results show that more pressure is required to flow same amount of fluid in an inclined channel. The temperature field θ is boosted by both the Bingham number and the continuation parameter M. It is also observed that different zeta potentials and velocity slip conditions are significant phenomena to influence channel flow. A pumping‐based device can be built using the existing model to combine and filter physiological samples and chemicals as well as to visualize the transit of physiological fluids.

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“…For example, cooling is required to dissipate heat from electronic devices, petrochemicals, industrial processes, phase change materials (PCM), cooling and heating systems in buildings, textiles, vehicles and avionics, food and other factories, etc. Abbas and Rafiq 23 examined the heat and mass transfer phenomena on the peristaltic transport of hyperbolic tangent fluid in a tapered conduit and observed that fluid velocity declines with an enhancement of Darcy’s number, whereas its diminutions with an increase of Weissenberg’s number. Irfan et al 24 analyzed the mechanism of heat transfer in the peristaltic motion of a Casson nanofluid through an asymmetric channel with considerations for velocity and thermal slip effects.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of convective flow in ternary hybrid nanofluid induced by metachronal propulsion

Abbas,

Arslan,

Rafiq

2023

Advances in Mechanical Engineering

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This paper aims to inspect the mixed convective ciliary transport of ternary hybrid nanofluid through a curved channel having ciliated walls. Titanium oxide, Alumina oxide, and Silicon dioxide nanoparticles are taken for the current problem with blood as a base fluid. Due to the complexity of the flow regime, curvilinear coordinates are utilized to modulate resultant equations for two-dimensional flow under the consideration of heat source/sink effects. The attributes of ciliary structures are revealed by the dominance of viscous impacts over inertial impacts utilizing the long-wavelength approximation. The impacts of several interesting parameters on the flow fields are scrutinized via graphs. It can be examined that liquid velocity is enhanced by enhancing the cilia length parameter. The considered nanomaterials have remarkable applications in maintaining the heat transfer rate in blood flow through arteries.

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Analysis of heat and mass transfer phenomena in peristaltic transportation of hyperbolic tangent fluid in tapered channel

Cited by 22 publications

References 41 publications

Radiative heat transport of Cattaneo‐Christov double diffusive Casson nanofluid flow between two rotating disks with Hall current and activation energy

Radiative heat transport of Cattaneo‐Christov double diffusive Casson nanofluid flow between two rotating disks with Hall current and activation energy

Electrokinetic peristaltic transport of Bingham‐Papanastasiou fluid via porous media

Enhancement of convective flow in ternary hybrid nanofluid induced by metachronal propulsion

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