Comparative analysis on non-linear radiative heat transfer on MHD Casson nanofluid past a thin needle

Souayeh, Basma; Reddy, M. Gnaneswara; Sreenivasulu, P.; Poornima, T.; Rahimi‐Gorji, Mohammad; Alarifi, Ibrahim M.

doi:10.1016/j.molliq.2019.03.151

Cited by 155 publications

(61 citation statements)

References 42 publications

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“…Sulochana et al [19] carried out the similarity solution of Casson nanofluid over a stretching sheet. Souayeh et al [20] have analyzed the Casson nanofluid flow considering nonlinear thermal radiation. Mahanthesh et al [21] have considered the Hall current and exponential heat source on unsteady heat transport of dusty TiO 2 -EO nanoliquid with nonlinear radiative heat.…”

Section: Nomenclaturementioning

confidence: 99%

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Senapati¹,

Swain²,

Parida³

2020

Karbala International Journal of Modern Science

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Section: Nomenclaturementioning

confidence: 99%

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Senapati¹,

Swain²,

Parida³

2020

Karbala International Journal of Modern Science

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“…Differential equations have been an essential tool for modeling real‐life problems in engineering, science, and industries, such as nuclear reactor. For instance, the tool had been successfully employed to study the combustion behavior of a falling sodium droplet by Makino and Fukada, 1 examine the heat transfer inside a tube during sodium‐water reaction by Kurihara et al, 2 analyze droplet ignition delay time by Chen and Peng, 3 describe the flow in a permeable channel as applicable to flat plate dialyzer by Muhammad Kahshan et al, 4 explain the electromagneto transport of blood by Uddin et al, 5 synthesis P‐DSBT‐ZnO nanocomposite by Mehdi Akermi et al, 6 deliberate on the enhancement of heat transfer in the presence of a Darcy‐Forchheimer medium by Ganesh Kumar et al, 7 analyze couple stress fluid flow in an inclined channel by Adesanya et al, 8 examine nonlinear radiative heat transfer on magnetohydrodynamics (MHD) Casson nanofluid over a thin needle by Basma Souayeh et al, 9 explain dynamics of blood‐gold Carreau nanofluid in the presence of partial slip and buoyancy by Koriko et al, 10 examine the dynamics of alumina‐water nanofluid subject to Hall effect by Animasaun et al, 11 describe the effects of melting heat transfer on the dynamics of Upper Convected Maxwell (UCM) fluid by Adegbie et al, 12 point out the significance of melting heat transfer on the motion of micropolar fluid with variable dynamic viscosity and thermal conductivity at constant vortex viscosity by Adegbie et al, 13 and describe the motion of water conveying alumina‐iron(III) oxide nanoparticles in the presence of Lorentz force by Koriko et al 14 In all these studies, the qualitative analysis of each model is far‐fetched.…”

Section: Background Informationmentioning

confidence: 99%

Qualitative analysis of thermal explosion of sodium droplet with variable thermophysical properties and thermal radiations

2020

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There are many coolants frequently used in the industry for controlling not only heat transfer, but also temperature distribution in a confined domain. However, little is known on the thermal properties of sodium droplets. The qualitative analysis of differential equations that model the thermal explosion, nonlinear dynamic of sodium droplet with variable thermophysical properties when thermal radiations are considered as suggested by Cogley et al, Sohrab et al, and P-1 approximation Sazhin et al is deliberated upon in this study. The governing equations, first-order nonlinear ordinary differential equations, are nondimensionalized using the appropriate similarity variables. The existence and uniqueness of the solutions, concavity, and convexity of the temperature distribution, and positivity nature of the solutions of the dimensionless governing equations are established. It is concluded that there exists a solution for a certain range of the admissible parameters and when the reduced activation energy is negative and temperature distribution fits concavity. More so, the major criteria to obtain a positive solution are outlined in this study. K E Y W O R D S concave, convex, existence and uniqueness, explosion, sodium droplet Recently, a comprehensive discussion on concave and convex functions was presented by Kythe. 24 Basic definition, example, and application of convex functions to mathematical programming had also been presented by Jeter. 25 In the same report, basic results concerning the optimization of convex functions, minimization and maximization of a convex function, are outlined. Sequel to the review of reports by Pinchover, 26 Feng et al, 27 Xing, 28 Ge and Xue, 29 and Baotong Cui et al, 30 positivity of the solution can be pointed out as major characteristics of any 1512 | ADEGBIE ET AL.

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“…Nanofluid flow with radiation effects on a slanted surface was examined by Chakraborty [11]. Recently, different scholars investigated the nanofluid flow on different models, as some of them are given in references [12][13][14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

“…Persuaded by the above referred literature review, and due to the growing needs of non-Newtonian nanofluid flows in industry and engineering areas, the present work focuses on the Casson nanofluid flow over a non-linear inclined stretching surface with Soret and Dufour effects. Casson nanofluid is more helpful for cooling and friction reducing agents compared to Newtonian based nanofluid flow [15]. To the best of the author's knowledge, the solution of the Casson nanofluid flow over a non-linear inclined stretching surface with radiation, as well as Soret and Dufour effects with the Keller-Box method, has not yet been reported.…”

Section: Introductionmentioning

confidence: 99%

Numerical Solution of Casson Nanofluid Flow Over a Non-linear Inclined Surface With Soret and Dufour Effects by Keller-Box Method

et al. 2019

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In this article, the effects of a Casson Nanofluid boundary layer flow, over an inclined extending surface with Soret and Dufour, is scrutinized. The model used in this study is based on the Buongiorno model of the thermal efficiencies of the fluid flows in the presence of Brownian motion and thermophoresis properties. The non-linear problem for Casson Nanofluid flow over an inclined channel is modeled to gain knowledge on the heat and mass exchange phenomenon, by considering important flow parameters of the intensified boundary layer. The governing non-linear partial differential equations are changed to non-linear ordinary differential equations and are afterward illustrated numerically by the Keller-Box scheme. A comparison of the established results, if the incorporated effects are lacking, is performed with the available outcomes of Khan and Pop [1] and recognized in a nice settlement. Numerical and graphical results are also presented in tables and graphs.

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Comparative analysis on non-linear radiative heat transfer on MHD Casson nanofluid past a thin needle

Cited by 155 publications

References 42 publications

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Qualitative analysis of thermal explosion of sodium droplet with variable thermophysical properties and thermal radiations

Numerical Solution of Casson Nanofluid Flow Over a Non-linear Inclined Surface With Soret and Dufour Effects by Keller-Box Method

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