Thermal Effects on Magneto Hydrodynamic Casson Liquid Stream Between Electrically Conducting Plates

Kirubhashankar*, C. K.; Vaithyasubramanian, S.; Immanuel, Y.; Muniappan, P.

doi:10.35940/ijitee.c8980.029420

Cited by 2 publications

(3 citation statements)

References 12 publications

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“…Equation 1 and governing equations are specified with references. 13,20,22,26,27,29,44,48 Now familiarize the following parallelism (similarity) variables to modify the leading PDEs into ODEs.…”

Section: Problem Formulationmentioning

confidence: 99%

“…Using the radiative heat flux term through Rosseland, we have

q_{r} = \frac{- 4 σ^{*}}{3 k^{*}} \frac{\partial T^{4}}{∂y}

where σ * represents Stefan–Boltzmann constant and k * stands for Rosseland mean absorption coefficient. By utilization, the Taylor series expansion and negligence higher terms, we obtain

T^{4} \approx T_{2}^{3} normalT - T_{2}^{4} .

Equation and governing equations are specified with references 13,20,22,26,27,29,44,48 …”

Section: Problem Formulationmentioning

confidence: 99%

“…Kataria and Patel 19 have debated the mass and heat transference of the unsteady (dependent of time) natural convective MHD shear thinning Casson fluid flow produced over an oscillation erect platen applied in a porous mode. Kirubhashankar et al 20 have observed the impact of heat transfer and thermal radiation amid two parallel plates conduct with the magnetic field of electromagnetic (MHD) Casson fluid flow. Lakshmi et al 21 have considered the heat transference of the boundary layer of shear thinning Casson fluid flow with suction or blowing effects.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Mathematical modeling of steady MHD Casson fluid flow with stretching porous walls in existence of radiation, chemical reaction, and thermal diffusion effect

Jangid

Mehta

et al. 2021

Math Methods in App Sciences

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This expression presents the steady (independent of time) MagnetoHydroDynamics (MHD) Casson fluid (non-Newtonian shear-thinning) flow with thermal radiative impression between two equivalent plates within stretched porous walls. The mass and heat transfer experimentation founded in the company of buoyancy force, viscous dissipative impact, and thermo diffusion impact on squeezing flow are explained along with thermal radiative impression also with heat source/sink outcomes. The governing PDEs (partial differential equations) modified into ODEs (ordinary differential equations) via appropriate similarity modification. The ODEs are extricated by Runge-Kutta's fourth-order scheme and shooting performance. The outcomes of several parameters (nondimensional numbers) on velocity, temperature, and concentration are evaluated with the service of diagrams and tables. The result displays that the fluid velocity growths with increment of Grashof number.The effect of Reynolds number, Hartman number (magnetic number), non-Newtonian Casson fluid parameter, and so forth are also interpreted for velocity profile, mass transfer, and heat transfer. In the last, the skin friction coefficient, Sherwood number (mass transfer coefficient), and Nusselt numbers (heat transfer coefficient) are also reputed. Also, validation of the current paper is given in Table 2.

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Section: Problem Formulationmentioning

confidence: 99%

“…Using the radiative heat flux term through Rosseland, we have

q_{r} = \frac{- 4 σ^{*}}{3 k^{*}} \frac{\partial T^{4}}{∂y}

where σ * represents Stefan–Boltzmann constant and k * stands for Rosseland mean absorption coefficient. By utilization, the Taylor series expansion and negligence higher terms, we obtain

T^{4} \approx T_{2}^{3} normalT - T_{2}^{4} .

Equation and governing equations are specified with references 13,20,22,26,27,29,44,48 …”

Section: Problem Formulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mathematical modeling of steady MHD Casson fluid flow with stretching porous walls in existence of radiation, chemical reaction, and thermal diffusion effect

Jangid

Mehta

et al. 2021

Math Methods in App Sciences

View full text Add to dashboard Cite

show abstract

Numerical Study of Melting Impact on MHD Non-Newtonian Casson Fluid Flow Ran on a Stretching Sheet in a Porous Medium with Radiation and Dissipation Effect

Jangid

Mehta

et al. 2022

Advances in Mathematical Modelling, Applied Analysis and Computation

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Thermal Effects on Magneto Hydrodynamic Casson Liquid Stream Between Electrically Conducting Plates

Cited by 2 publications

References 12 publications

Mathematical modeling of steady MHD Casson fluid flow with stretching porous walls in existence of radiation, chemical reaction, and thermal diffusion effect

Mathematical modeling of steady MHD Casson fluid flow with stretching porous walls in existence of radiation, chemical reaction, and thermal diffusion effect

Numerical Study of Melting Impact on MHD Non-Newtonian Casson Fluid Flow Ran on a Stretching Sheet in a Porous Medium with Radiation and Dissipation Effect

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