Effect of radiation on thermosolutal Marangoni convection in a porous medium with chemical reaction and heat source/sink

Mahabaleshwar, U. S.; Nagaraju, K. R.; Kumar, P. N. Vinay; Azese, Martin Ndi

doi:10.1063/5.0023084

Cited by 51 publications

(15 citation statements)

References 30 publications

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“…Spalding [31] investigated the mass or species transfer in viscous flow over a flat plate, vertical plate and sphere using the Karman-Pohlhausen-Kroujiline method. Recently, Mahabaleshwar et al [32][33][34][35][36][37][38][39] and Khan et al [40][41][42][43] have investigated analytical examination to impact of different fluids with numerous parameters MHD/porous media flow.…”

Section: Symbolsmentioning

confidence: 99%

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

et al. 2021

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The influence of inclined magnetic field and heat and mass transfer of a hydromagnetic fluid on stretching/shrinking sheet with Stefan blowing effects and radiation has been investigated. The elementary viscous equations for momentum, heat and mass transfer, which are highly nonlinear partial differential equations, are mapped into highly nonlinear ordinary differential equations with the help of similarity transformation. The subsequent highly nonlinear differential equation is solved analytically. The exact solution of heat and mass transfer appearances is found in terms of the incomplete gamma function. The species and temperature boundary conditions are assumed to be a linear function of the distance from the origin. Further, the impact of various parameters, such as Chandrasekhar number, thermal radiation, inclined Lorentz force and mass transpiration on velocity and temperature summaries, are conferred in detail.

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Section: Symbolsmentioning

confidence: 99%

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

et al. 2021

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“…The Rosseland's formulation for the radiative heat flux can be simplified for radiation as (see [27][28][29][30][31][32])…”

Section: Physical Modeling and Governing Equationsmentioning

confidence: 99%

Navier Slip and Heat Transfer in a Nanofluid Due to a Stretching/Shrinking Sheet: An Analytical Study

Vishalakshi¹,

Mahabaleshwar²,

Ganaoui³

et al. 2022

Fluid Dynamics &Amp; Materials Processing

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“…The radiative heat flux is stated as follows (see Mahabaleshwar et al [31][32][33][34]) using the Rosseland [35] approximation.…”

Section: Dust Phasementioning

confidence: 99%

Darcy Brinkman Equations for Hybrid Dusty Nanofluid Flow with Heat Transfer and Mass Transpiration

et al. 2021

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In the current work, we have investigated the flow past a semi-infinite porous solid media, after presenting a similarity transformation, governing equations mapped to a system of non-linear PDE. The flow of a dusty fluid and heat transfer through a porous medium have few applications, viz., the polymer processing unit of a geophysical, allied area, and chemical engineering plant. Further, we had the option to get an exact analytical solution for the velocity to the equation that is non-linear. The highlight of the current work is the flow of hybrid dusty nanofluid due to Darcy porous media through linear thermal radiation with the assistance of an analytical process. The hybrid dusty nanofluid has significant features improving the heat transfer process and is extensively developed in manufacturing industrial uses. It was found that the basic similarity equations admit two phases for both stretching/shrinking surfaces. The existence of computation on velocity and temperature profile is presented graphically for different estimations of various physical parameters.

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Effect of radiation on thermosolutal Marangoni convection in a porous medium with chemical reaction and heat source/sink

Cited by 51 publications

References 30 publications

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

Navier Slip and Heat Transfer in a Nanofluid Due to a Stretching/Shrinking Sheet: An Analytical Study

Darcy Brinkman Equations for Hybrid Dusty Nanofluid Flow with Heat Transfer and Mass Transpiration

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