Radiation effects on heat transfer of three dimensional nanofluid flow considering thermal interfacial resistance and micro mixing in suspensions

Sheikholeslami, M.; Kataria, Hari R.; Mittal, Akhil S.

doi:10.1016/j.cjph.2017.09.010

Cited by 81 publications

(23 citation statements)

References 37 publications

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“…[18] and Sheikholeslami et al. [19] discussed unsteady MHD flow with thermal radiation. Hayat et al.…”

Section: Introductionmentioning

confidence: 99%

Effects of cross diffusion and heat generation on mixed convective MHD flow of Casson fluid through porous medium with non-linear thermal radiation

Patel¹

2019

Heliyon

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In the present work, two-dimensional mixed convection Casson fluid flow past an infinite plate in a porous medium is performed under the effects of a uniform magnetic field. Characteristics of heat transfer and mass transfer are analyzed with non-linear thermal radiation, cross-diffusion, chemical reaction, heat generation and, heat absorption. The governing partial differential equations are remodeled into ordinary differential equations using similarity transformation. The homotopy analysis method is implemented to solve the governing dimensionless system of ordinary differential equations. The behavior of different physical parameters is shown graphically. The numerical values of Skin friction, Nusselt number, and Sherwood number are presented in a tabular form. Obtained outcomes are compared with earlier studies in the special case and strong agreement is noted. From graphical representation, it is concluded that velocity and temperature distribution increases with the mixed convection parameter and buoyancy force parameter. An increasing value of Casson fluid parameter, magnetic field parameter, chemical reaction parameter, and diffusion-thermo parameter tends to reduced velocity and temperature profiles. In most of the engineering and real-world problems, skin friction is not desirable, so it can be decreased by decreasing the values of magnetic field parameter, non-linear thermal radiation parameter, heat generation parameter, and temperature ratio parameter.

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“…[18] and Sheikholeslami et al. [19] discussed unsteady MHD flow with thermal radiation. Hayat et al.…”

Section: Introductionmentioning

confidence: 99%

Effects of cross diffusion and heat generation on mixed convective MHD flow of Casson fluid through porous medium with non-linear thermal radiation

Patel¹

2019

Heliyon

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“…The system of linear Eqs. (18)(19)(20)(21) which are obtained after using the central differences are thus solved iteratively by SOR method.…”

Section: Problem Formulationmentioning

confidence: 99%

“…Microstructural and inertial features influence on MHD micropolar nanofluid had been inspected by Patel et al 20 by utilizing similarity transformation. In magnetic field presence, Sheikholeslami et al 21 has studied heat transfer in Al 2 O 3 -water nanofluid flow features through porous media between parallel horizontal plates. Sheikholeslami et al 22 presented heat generation and thermal diffusion impacts on unsteady MHD radiating nanofluid past an oscillating plate via porous media.…”

mentioning

confidence: 99%

Study of Heat and Mass Transfer in MHD Flow of Micropolar Fluid over a Curved Stretching Sheet

Yasmin

Ali

Ashraf

2020

Sci Rep

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A comprehensive investigation of mass and heat transfer in magnetohydrodynamics (MHD) flow of an electrically conducting non-Newtonian micropolar fluid because of curved stretching sheet is presented. Flow is originated by stretching of curved sheet by means of linear velocity. Concentration and energy equations are incorporated to study repercussion of mass and heat transfer. To define basic equations of the model, curvilinear coordinates are used. The transformed BL (boundary layer) equations for the momentum, concentration, angular momentum and temperature with appropriate boundary conditions are numerically solved by SOR (successive over relaxation) algorithms combined with the quasi-linearization technique. Flow features such as temperature fields, micro rotation, velocity and concentration are appraised for manipulation of pertinent parameters. The radius of curvature enhances the temperature and concentration whereas it declines micro-rotation as well as velocities of the fluid.It is significant to notice that magnetic field interaction is caused counterproductive in increasing concentration distribution and fluid temperature while diminishing micro-rotation and velocities at all domain flow points. As schmidt number increases concentration of fluid reduces.

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“…In this study, we can notice the relation between velocity of the liquid particle and magnetic parameter, temperature, and thermophoresis parameter. Sheikholeslami et al 10 examined the impact of skin friction, Reynolds number, Eckert number, and other parameters on a 3D flow in a porous medium including

normalA l_{2} O_{3}

as a nanoparticle. Gireesha et al 11 used nickel alloy to illustrate the thermal behavior of a fin, considering sphere, needle, and disc‐shaped nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Arrhenius activation energy in stretched flow of nanofluid over a rotating disc

Kotresh

Ramesh²,

Shashikala

et al. 2020

Heat Trans

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The study of shape effects in nanofluids plays a vital role in the fluid flow as well as heat propagation. Hence, the different shape factors of molybdenum disulfide MoS2 on a stretchable disc with rotation under the effect of the magnetic field, chemical response, and activation energy are examined. The set of partial differential equations is converted into ordinary differential equations (ODEs) by using von Karman's transformations, and the obtained ODEs are solved by using Runge‐Kutta‐Fehlberg 45 and shooting techniques. The numerical computations are made by utilizing well‐known maple 17 software. The different physical parameter effects on velocity, temperature, and concentration curves, as well as skin friction and Sherwood numbers, are analyzed through graphs. It is noted that the larger values of solid volume fraction enhances the drag coefficient and reduces the rate of heat transfer. It is further observed that the curve of a viscous fluid is always lesser than curve of a nanofluid.

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Radiation effects on heat transfer of three dimensional nanofluid flow considering thermal interfacial resistance and micro mixing in suspensions

Cited by 81 publications

References 37 publications

Effects of cross diffusion and heat generation on mixed convective MHD flow of Casson fluid through porous medium with non-linear thermal radiation

Effects of cross diffusion and heat generation on mixed convective MHD flow of Casson fluid through porous medium with non-linear thermal radiation

Study of Heat and Mass Transfer in MHD Flow of Micropolar Fluid over a Curved Stretching Sheet

Assessment of Arrhenius activation energy in stretched flow of nanofluid over a rotating disc

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