Study of mixed convective–radiative fluid flow in a channel with temperature-dependent thermal conductivity

Kumar, T. S. V. Vijaya; D.N., Punith Kumar; Reddy, A. Sreevallabha

doi:10.1016/j.padiff.2022.100344

Cited by 2 publications

(1 citation statement)

References 27 publications

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“…Suresh Babu et al 28 studied the Forcheimmer effect of an infinite vertical plate and observed that velocity decreases with increasing the drag force. The researchers 29,30 have discussed the effect of various forces on dusty particles over an irregular channel. Basavaraj et al 31 analysed the oscillatory flow under a uniform magnetic field.…”

Section: Introductionmentioning

confidence: 99%

The effect of MHD mixed convection flow over a heated plate

Sakthivel¹,

Narasappa²,

Ashwathnarayana

et al. 2022

Heat Trans

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The notion of this paper is to analyse the bidimensional, steady flow of a dusty fluid over a heated plate with varied fluid properties and magnetic fields. The boundary layer flow directed by Lapwood–Forcheimer–Brinkman extended Darcy model and Lorentz force are highly coupled and nonlinear. Similarity terms convert these nonlinear partial differential equations to higher‐order ordinary differential equations. These higher order ordinary differential equations (ODEs) are converted to first order ODE by the numerical technique called the shooting technique. Temperature, concentration, and velocity are portrayed for various pertinent parameters, and it is spotted that due to the particles in the fluid, the heat transfer speeds up and temperature and concentration decrease. Nusselt number, Skin fiction, and Sherwood number also have been discussed here. The results are in keeping with the existing results. In understanding the thermal characteristic of various effects, it was seen that thermogeometric plate, radiation conduction is very useful for many industrial applications.

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Section: Introductionmentioning

confidence: 99%

The effect of MHD mixed convection flow over a heated plate

Sakthivel¹,

Narasappa²,

Ashwathnarayana

et al. 2022

Heat Trans

View full text Add to dashboard Cite

show abstract

Conjugate Impacts of Linear Variable Thermal Conductivity and Thermal Radiation on Nonlinear Electrically Conducting Fluid

S. Y.,

A.,

B. Y.

2024

African Journal of Mathematics and Statistics Studies

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This study investigates the conjugate impacts of variable thermal conductivity and thermal radiation on nonlinear heat conducting fluid moving vertically through parallel channels. The dimensional governing equations were reduced to dimensionless partial differential equations and consequently transformed to ordinary differential equations. The resulting ordinary differential equations were solved using the homotopy perturbation method. The study aimed at discovering the possible effects of thermal radiation parameter , thermal conductivity parameter , temperature difference parameter and Magnetic parameter through the help of line graphs. It was found that, Velocity and temperature distributions were increasing functions of , while Velocity and temperature distributions are decreasing functions of

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Study of mixed convective–radiative fluid flow in a channel with temperature-dependent thermal conductivity

Cited by 2 publications

References 27 publications

The effect of MHD mixed convection flow over a heated plate

The effect of MHD mixed convection flow over a heated plate

Conjugate Impacts of Linear Variable Thermal Conductivity and Thermal Radiation on Nonlinear Electrically Conducting Fluid

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