Contribution of joule heating and viscous dissipation on three dimensional flow of Casson model comprising temperature dependent conductance utilizing shooting method

Sohail, Muhammad; Chu, Yu‐Ming; El‐Zahar, Essam R.; Nazir, Umar; Naseem, Tahir

doi:10.1088/1402-4896/ac00e5

Cited by 56 publications

(12 citation statements)

References 46 publications

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“…Viscous dissipation being directly related to Nano fluid viscosity, considered to be the function of concentration consequently related to the temperature profile. Sohail et al [34] work based the three-dimensional flow behavior and observed the joule heating and viscous dissipation impacts for the Casson fluid model incorporating temperature reliant conductance with the aid of numerical approach namely shooting method. Abbasi et al [35] examined the ameliorated thermal efficiency along with optimized approach for the Copper Aluminum oxide under the influence of viscous dissipation and Joule heating.…”

Section: Introductionmentioning

confidence: 99%

Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Akbar

Sohail²

2022

IJEMD-M

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The present study elucidates the results on the mathematical modeling and numerical study for the viscous flow demeanor past over the plane horizontal surface stretched nonlinearly in two sideways. Furthermore, a comprehensive analysis on the effects of magnetic field, thermal radiation and viscous dissipation are considered and observed. Cartesian coordinate system is employed for modelling the flow equations. In this research water act as a traditional thermal fluid. Three distinct nanoparticles namely Gold (Au), Aluminum (Al) and Silver (Ag) are suspended. Numerical and analytical solution for the resulting differential equations demonstrates the flow demeanor for velocity and temperature distribution are transformed into ordinary differential equations by aiding the suitable transformations. The accuracy of exact solution is also validated by using shooting method in MATHEMATICA 10.0. The impacts of multifarious parameters particularly Eckert number, Prandtl number, Magnetic parameter and heat source parameter for the suspended nanoparticles on velocity and temperature are given through graphs.

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Section: Introductionmentioning

confidence: 99%

Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Akbar

Sohail²

2022

IJEMD-M

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“…Naseem et al (2021) discussed the numerical consequences of Soret and Dufour effects involving the role of thermal radiation over a stretching frame, including variable thermal conductivity. Sohail et al (2021) investigated the performance of entropy generation in a Casson fluid inserting the impact of Lorentz force. They discussed features of variable properties including various effects past a stretching frame.…”

Section: Introductionmentioning

confidence: 99%

Applications of variable thermal properties in Carreau material with ion slip and Hall forces towards cone using a non-Fourier approach via FE-method and mesh-free study

et al. 2022

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This research highlights the utilization of two viscosity models to study the involvement of variable properties in heat and momentum transport in a rotating Carreau fluid past over a cone. The rheology of the Carreau material is assessed by the variable dynamic viscosity over the heating cone. The transport of momentum phenomenon is modeled by considering generalized Ohm’s law in Carreau liquid and thermal transport in derived by considering variable thermal conductivity, heat flux model. The considered model is derived in the form of nonlinear PDEs with boundary layer analysis. The nonlinear PDEs are converted into coupled ODEs by using approximate transformation and converted equations are solved numerically by finite element methodology. The impact of numerous parameters is displayed graphically, and their behavior is discussed in detail.

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“…Swain et al 21 initiated 3D nanoparticle aggregation of titanium nanoliquid with C 2 H 6 O 2 –TiO 2 via an exponentially elongated surface. The analysis of incompressible hybrid nanoliquid motion on a 3D rotating frame was presented by Xia et al 22 Sohail et al 23 examine non‐Newtonian liquid motion via bilateral surface under influence of MHD. Shoaib et al 24 developed 3D heat and mass transfer motion of hybrid nanoliquid via rotating disk.…”

Section: Introductionmentioning

confidence: 99%

Convection of 3D MHD non‐Newtonian couple stress nanofluid flow via stretching surface

Jagadeesh

Reddy

2022

Heat Trans

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This study involvesthe numerical modeling of steady thermal radiation and chemical reaction on non‐Newtonian fluid motion via a bidirectional stretching surface. We have taken convective boundary conditions, and heat sources on the stretching surface. The working fluid of the present study is Casson fluid (“non‐Newtonian”) with couple stress. The self‐similarity forms of the nonlinear thermal radiative flow model are obtained by using similarity variables. Furthermore, the numerical results are computed with the help of fourth‐order Runge–Kutta–Fehlberg method with a shooting algorithm after reducing nonlinear partial differential equations have been translated into strong ordinary differential equations (ODEs). Impacts of the various flow physical parameters especially Biot number, nonlinear thermal radiation, and heat source parameters containing nonlinear ODEs are discussed in detail for distinct numerical values. A comparison of calculated results with the known numerical results made with the previously published literature is mentioned and obtained a good agreement. Finally, we found that the R e x 1 / 2 C f x $R{e}_{x}^{1/2}{C}_{fx}$ (“coefficient of skin friction”) declines along x * ,0.35em y * $x* ,\,y* $ directions, respectively, with β $\beta $ via λ $\lambda $ while the opposite direction follows M $M$ with respect to λ $\lambda $ and the R e x − 1 / 2 N u x $R{e}_{x}^{-1/2}N{u}_{x}$ (“heat transfer rate”), R e x − 1 / 2 S h $R{e}_{x}^{-1/2}Sh$ (“mass transfer rate”) increase with Γ $\Gamma $ via γ 1 ${\gamma }_{1}$ while opposite direction follows γ 1 ${\gamma }_{1}$ with respect to γ 2 ${\gamma }_{2}$.

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Contribution of joule heating and viscous dissipation on three dimensional flow of Casson model comprising temperature dependent conductance utilizing shooting method

Cited by 56 publications

References 46 publications

Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Applications of variable thermal properties in Carreau material with ion slip and Hall forces towards cone using a non-Fourier approach via FE-method and mesh-free study

Convection of 3D MHD non‐Newtonian couple stress nanofluid flow via stretching surface

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