MHD slip flow of a dissipative Casson fluid over a moving geometry with heat source/sink: A numerical study

Raju, C. S. K.; Sandeep, N.

doi:10.1016/j.actaastro.2016.11.004

Cited by 34 publications

(19 citation statements)

References 33 publications

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“…Substituting conditions (24) and (25) into conditions (9) to (11), these conditions are decreased to an arrangement of nine synchronous conditions of the primary formula as follows:…”

Section: Mathematical Formulationmentioning

confidence: 99%

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Unsteady natural convection magnetohydrodynamic stagnation point flow with assisting and opposing characteristics: Buongiorno model

et al. 2020

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In this investigation, the flow of an unsteady mixed convection boundary layer viscous nanofluid on a stretchable sheet is considered. The flow examination is affected by a magnetic field. The reason for the examination exhibited is to create models for nanomaterials that incorporate the Brownian movement and thermophoresis phenomena. The created nonlinear standard differential condition is illuminated numerically utilizing the Runge-Kutta-Gill technique and the start program. The different factors of speed, temperature, and concentration are reported and discussed. The examination shows that the speed, temperature, and concentration are lower in contrast with the consistent stream on account of an assisting flow, whereas the opposite situation is noticed in the opposing flow case. The effects of Brownian movement and thermophoresis in the concentration case are totally different.

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“…Substituting conditions (24) and (25) into conditions (9) to (11), these conditions are decreased to an arrangement of nine synchronous conditions of the primary formula as follows:…”

Section: Mathematical Formulationmentioning

confidence: 99%

“…This improvement furnishes scientists and researchers with devices that empower them to deliver materials with exceptional properties. Numerous materials are viewed as a suitable alternative for expanding heat movement 19‐40 …”

Section: Introductionmentioning

confidence: 99%

Unsteady natural convection magnetohydrodynamic stagnation point flow with assisting and opposing characteristics: Buongiorno model

et al. 2020

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“…Seedak and Abdelmeguid [27] investigated the effects of thermal radiation with thermal diffusivity over a stretching sheet having variable heat flux. Babu and Sandeep [28], Raju and Sandeep [29] and Kumar et al [30] focused on the effects of non-linear thermal radiations by incorporating the Newtonian and non-Newtonian fluids in the presence and absence of the slip effects. Attia et al [31] and Prakashi et al [32] investigated the heat transfer in fluid flow between two porous plates and the porous channel.…”

Section: Introductionmentioning

confidence: 99%

A Legendre wavelet spectral collocation method for analysis of thermal radiation and slip in the oblique stagnation-point flow of Walters-B liquid towards a stretching surface

et al. 2019

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A spectral collocation method based on Legendre wavelet is applied to analyse the slip and radiation effects in the flow of an elastico-viscous Walters-B fluid. The fluid is assumed to impinge obliquely on a stretching surface with linear stretching velocity. The governing system of equations is converted into dimensionless ordinary differential equations by invoking suitable similarity variables. The proposed iterative spectral technique for solving governing system of initial value problems is applied for obtaining the solutions. First, we extend Legendre wavelet and Legendre-Guass collocation points are computed for a large interval. The differential equations are converted into a system of algebraic equations. The approximate solution is obtained by solving these algebraic equations. The proposed algorithm is implemented to obtain numerical results for different values of the pertinent parameters. The proposed algorithm controlled the overshooting and undershooting in velocity profiles. The presence of stretching and slip enhances the velocity and reduces the temperature of the fluid within the boundary layer.

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“…On the other hand, different numerical methods have been applied in order to find accurate solutions, such as Runge-Kutta algorithm [6], recursive evaluation of Taylor coefficients [1], and iterative transformation method [10]. Furthermore, other types of similar flows has been recently treated such as the work of Raju et al who studied the nonlinear flows of Casson and Carreau fluids on various types of wedges [20,21,22,23,24]. Also, Mukhopadhyay et al [18] investigated a boundary-layer forced convection flow of a Casson fluid past a symmetric wedge.…”

Section: Introductionmentioning

confidence: 99%

Numerical Solution of Falkner-Skan Equation by Iterative Transformation Method

Temimi

Ben-Romdhane

2018

Mathematical Modelling and Analysis

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In this paper, we study the nonlinear boundary-layer equation of Falkner- Skan defned on a semi-infnite domain. An iterative finite difference (IFD) scheme is proposed to numerically solve such nonlinear ordinary differential equation. A computational iterative scheme is developed based on Newton-Kantorovich quasilinearization. At every iteration, the obtained linearized differential equation is numerically solved using the standard finite difference method. Numerical experiments show the accuracy and efficiency of the method compared to existing solvers. The computation is performed for different parameter values, including the special case of Blasius problem.

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MHD slip flow of a dissipative Casson fluid over a moving geometry with heat source/sink: A numerical study

Cited by 34 publications

References 33 publications

Unsteady natural convection magnetohydrodynamic stagnation point flow with assisting and opposing characteristics: Buongiorno model

Unsteady natural convection magnetohydrodynamic stagnation point flow with assisting and opposing characteristics: Buongiorno model

A Legendre wavelet spectral collocation method for analysis of thermal radiation and slip in the oblique stagnation-point flow of Walters-B liquid towards a stretching surface

Numerical Solution of Falkner-Skan Equation by Iterative Transformation Method

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