Heat Transfer Characteristics of Fractionalized Hydromagnetic Fluid with Chemical Reaction in Permeable Media

This manuscript optimizes the conjugate heat transfer and thermal-stress analysis for hydromagnetic Brinkman fluid with chemical reaction in permeable media. The governing equations of non-Newtonian Brinkman fluid have been traced out and then fractional derivative approach, namely, Caputo–Fabrizio,...

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Published inEnergies (Basel) Vol. 15; no. 6; p. 2196
Main Authors Souayeh, Basma, Ali Abro, Kashif, Alnaim, Nisrin, Al Nuwairan, Muneerah, Hdhiri, Najib, Yasin, Essam
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2022
Subjects
Boundary conditions
Chemical reactions
Comparative studies
Conductivity
Differential equations
Differential thermal analysis
Fluid dynamics
Fluid flow
Fourier analysis
fractional analysis
Heat conductivity
Heat resistance
Heat transfer
hydro-magnetized Brinkman fluid
Laplace transforms
Nanoparticles
Parameter sensitivity
Partial differential equations
Permeability
permeable media
Prandtl number
Rheological properties
Rheology
Shear stress
Stress analysis
Temperature distribution
Velocity
Velocity distribution
Viscosity
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Summary:This manuscript optimizes the conjugate heat transfer and thermal-stress analysis for hydromagnetic Brinkman fluid with chemical reaction in permeable media. The governing equations of non-Newtonian Brinkman fluid have been traced out and then fractional derivative approach, namely, Caputo–Fabrizio, is invoked, subject to the exponential boundary conditions. The Fourier Sine and Laplace transforms are applied on governing partial differential equations for generating the analytical results of temperature, concentration and velocity. A comparative study of velocity field is investigated for the sake of long memory and hereditary properties. The analytical investigation of temperature, concentration and velocity field have strong effects on chemical reaction. The graphical depiction of vibrant characteristics of hydromagnetic Brinkman fluid with chemical reaction in permeable media is exhibited for disclosing the sensitivities of different embedded rheological parameters of fluid flow. The results suggested that temperature distribution for smaller and larger Prandtl number has disclosed quick and thicker heat diffusivity.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15062196