Effect of viscous dissipation and Joule heating on MHD radiative tangent hyperbolic nanofluid with convective and slip conditions

Atif, S. M.; Hussain, Shafqat; Sagheer, Muhammad

doi:10.1007/s40430-019-1688-9

Cited by 52 publications

(23 citation statements)

References 32 publications

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“…Since we have considered the steady-state flow problem, therefore, time derivative terms disappear. The continuity, momentum, thermal heat, concentration, and gyrotactic microorganism's equations are expressed as [21,37,44].…”

Section: Physical Modelmentioning

confidence: 99%

“…where σ * * is the Stefan-Boltzmann constant while k * * represents the mean absorption coefficient. Before computing the numerical solution, let us convert the flow equations in dimensionless form by inserting the following variables [21,37,43,44].…”

Section: mentioning

confidence: 99%

“…where ζ is similarity variable, l is the characteristic length while f , f , θ, φ and χ are dimensionless quantities. Operated above transformations in the governing flow equations, we result in following dimensionless forms [21,37,44].…”

Section: mentioning

confidence: 99%

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Activation Energy and Second Order Slip in Bioconvection of Oldroyd-B Nanofluid over a Stretching Cylinder: A Proposed Mathematical Model

et al. 2019

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The thermal performances based on the interaction of nanoparticles are the topic of great interest in recent years. In the current continuation, we have utilized the activation energy and thermal radiation consequences in the bioconvection flow of magnetized Oldroyd-B nanoparticles over a stretching cylinder. As a novelty, the second order slip features (Wu’s slip) and convective Nield boundary assumptions are also introduced for the flow situation. The heat performances of nanofluids are captured with an evaluation of the famous Buongiorno’s model which enables us to determine the attractive features of Brownian motion and thermophoretic diffusion. The suggested thermal system is based on the flow velocity, nanoparticles temperature, nanoparticles volume fraction and motile microorganisms. The governing flow equations for the flow problem are constituted with relevant references for which numerically solution is developed via shooting algorithm. A detailed graphically analysis for the assisted flow problem is performed in view of the involved parameters. Although some studies are available in the literature which deals with the flow of various fluids over-stretching cylinder, the phenomenon of bioconvection and other interesting features are not reported yet. Therefore, present scientific computations are performed to fill this gap and the reported results can be more useful for the enhancement of thermal extrusion processes, solar energy systems, and biofuels.

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Section: Physical Modelmentioning

confidence: 99%

Section: mentioning

confidence: 99%

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Activation Energy and Second Order Slip in Bioconvection of Oldroyd-B Nanofluid over a Stretching Cylinder: A Proposed Mathematical Model

et al. 2019

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“…Tangent hyperbolic nanofluid models constitute a recent development in heat and mass transfer fluids in boundary layer flows. The model takes into account the shear thinning and thickening behavior of the fluid, Hayat et al The boundary layer flow of a MHD tangent hyperbolic nanofluid over a stretching sheet was studied by Khan et al The application of the generalized Fourier heat law to the flow of tangent hyperbolic liquids over a sheet stretching nonlinearly was studied by Waqas et al Recent studies on MHD tangent hyperbolic flows can be found in References .…”

Section: Introductionmentioning

confidence: 99%

Thermophysical analysis of three‐dimensional magnetohydrodynamic flow of a tangent hyperbolic nanofluid

Oyelakin

Lalramneihmawii

Mondal

et al. 2020

Engineering Reports

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In this article, we use the Buongiorno model to study the three-dimensional tangent hyperbolic nanofluid flow over a stretched sheet. The study investigates the impact of velocity slip on the flow and heat transfer features in a tangent hyperbolic nanofluid. For a better fit with experimental observations. We assume that the nanoparticle mass flux at the boundary is zero as opposed to a prescribed concentration at the surface. Using appropriate transformations, we reduce the partial differential equations that describe the momentum, energy, and concentration transport to ordinary differential equations. Numerical solutions of the equations are obtained using the spectral method. Graphical illustration of the physical influence of various parameters on the flow features, the skin friction coefficient, and the local Nusselt number is given. The results indicate, that particle Brownian motion has a negligible impact on the rate of heat transfer. The impact of the modified Weissenberg number, a measure of the ratio of elastic to viscous forces, causes a reduction in the fluid velocity. The results are shown to be good agreement with those in related studies in the literature. K E Y W O R D Shyperbolic nanofluid, MHD flow, spectral method, stretching sheet

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“…The phenomenon of thermal radiation plays a vital role in the heat and mass transfer, and researchers conducted many studies to highlight its importance. For further study, see details in [22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

Effect of thermal radiation on MHD micropolar Carreau nanofluid with viscous dissipation, Joule heating and internal heating

2019

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The aim of the present study is to analyze the magnetohydrodynamic micropolar Carreau nano uid ow past a stretching sheet. Viscous dissipation, internal heating, Joule heating, and linear thermal radiation e ects are also incorporated into the energy equation. The system of governing PDEs is transformed into the ODEs by invoking the similarity transformation. The shooting method is implemented to solve the system of ODEs. The in uence of pertinent parameters on ow distributions is analyzed graphically and discussed in detail. The uid motion upsurges for the larger values of the Weissenberg number and the material parameter, while the reverse situation is studied in the thermal and concentration pro les.

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Effect of viscous dissipation and Joule heating on MHD radiative tangent hyperbolic nanofluid with convective and slip conditions

Cited by 52 publications

References 32 publications

Activation Energy and Second Order Slip in Bioconvection of Oldroyd-B Nanofluid over a Stretching Cylinder: A Proposed Mathematical Model

Activation Energy and Second Order Slip in Bioconvection of Oldroyd-B Nanofluid over a Stretching Cylinder: A Proposed Mathematical Model

Thermophysical analysis of three‐dimensional magnetohydrodynamic flow of a tangent hyperbolic nanofluid

Effect of thermal radiation on MHD micropolar Carreau nanofluid with viscous dissipation, Joule heating and internal heating

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