Influence of Nonlinear Thermal Radiation and Magnetic Field on Three-Dimensional Flow of a Maxwell Nanofluid

Archana, M.; Gireesha, B. J.; Venkatesh, P.; Reddy, M. Gnaneswara

doi:10.1166/jon.2017.1320

Cited by 23 publications

(8 citation statements)

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“…The explanation of the problem is gained via the shooting technique. The various effects on motion fields are presented with the help of plotted graphs [2][3][4][5][6][7][8][9][10][11][12][13]. For fixed values as revealed in figures, the impact of theporous parameter on momentum description has been examined.…”

Section: Resultsmentioning

confidence: 99%

“…Such type of flow was utilized in the power generator system in which heat energy is converted into electric energy. A study on the MHD motion of Maxwell liquid has been investigated by Archana et al [11] and has analyzed its impact on the velocity and temperature fields. Time-dependent MHD flow of electrically conducting Newtonian fluid has been analyzed by Makinde et al [12].…”

Section: Introductionmentioning

confidence: 99%

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Effect of Convective Heat and Mass Conditions in Magnetohydrodynamic Boundary Layer Flow with Joule Heating and Thermal Radiation

Sharma

Tinker

Gireesha

et al. 2020

International Journal of Applied Mechanics and Engineering

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A free convection viscous MHD flow over a semi-infinite vertical sheet with convective heat and mass conditions has been considered. The effects of thermal radiation, chemical reaction and Joule heating on flow are also accounted. The governing nonlinear partial differential equations have been transformed into a set of highly non-linear coupled ordinary differential equations (ODEs) using appropriate similarity transformations. Numerical solutions of transformed equations are obtained by employing the 5th order Runge-Kutta Fehlberg technique followed by the shooting technique. The influences of different flow parameters on the momentum, energy and mass field are discussed and shown graphically. Results reveal that temperature and concentration profiles enhance due to increasing heat and mass Biot number parameters.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of Convective Heat and Mass Conditions in Magnetohydrodynamic Boundary Layer Flow with Joule Heating and Thermal Radiation

Sharma

Tinker

Gireesha

et al. 2020

International Journal of Applied Mechanics and Engineering

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“…The Casson fluid is a shear-thinning liquid with a zero at the zero shear rate, an infinite viscosity at the zero shear rate, and yield stress below which no flow occurs (Dash et al, 1996). (Archana et al 2017) studied the effect of nonlinear thermal radiation, Joule heating, and magnetic field on a spinning Casson nano liquid stream. When considering the stream of non-Newtonian micro liquids due to heat transfer in the presence of a permeable surface, (Nadeem et al 2014) explored the stagnation point problem.…”

Section: Introductionmentioning

confidence: 99%

Prabhakar fractional derivative model of sodium alginate (C6H9NaO7) for accelerated plate motions

Khan

2022

Front. Energy Res.

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The Prabhakar fractional derivative model is not studied in the open literature for the Casson fluid model when the vertical plate exhibits linear and quadratic translations with constant heating. Therefore, this study deals with the thermal transport of sodium alginate (C6H9NaO7) over a vertical plate with a constant temperature. Since the classical PDEs are incapable of analyzing and investigating the physical impact of flow variables with memory effects, a fractional derivative model is developed using the Prabhakar fractional derivative approach. Two different types of plate translations (linear and quadratic) are considered. The non-dimensional governing equations are transformed into a fractional model and solved using the Laplace transformation (L.T) technique. The effects and behavior of significant physical parameters and fractional order parameters are studied graphically and discussed. As a consequence, it is found that as fractional limitations are increased, the thermal and momentum profiles drop. In addition, the momentum profile in the case of quadratic translation (variable acceleration) shows a higher magnitude than the case of linear translation (constantly accelerated plate).

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“…[24] studied bi‐convective flow of Maxwell fluid. Many authors [25–34] have studied the flow and heat transfer analysis of Newtonian and non‐Newtonian fluids considering different fluid models.…”

Section: Introductionmentioning

confidence: 99%

Magnetohydrodynamics stagnation point flow and heat transfer over a non‐isothermal permeable shrinking sheet with variable surface temperature

Parida

Swain²

2022

Z Angew Math Mech

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The present study is intended to analyse the effect of heat and mass transfer on boundary layer stagnation point flow of a viscous fluid over a non-isothermal shrinking sheet subject to transverse magnetic field and variable surface temperature. The medium of flow is considered to be porous. Further, the effect of variable surface temperature and concentration are also taken care of in the present analysis. The governing partial differential equations (PDEs) are transformed into ordinary differential equations (ODEs) by suitable similarity transformations. The numerical simulation is carried out using Runge-Kutta method of fourth order with shooting technique. The physical significance of pertinent parameters of the flow phenomenon is studied with the help of graphs and tables. One striking outcome of the present analysis is that the unstable velocity profiles with inflection points are marked due to power law variation of temperature and concentration of the linearly stretchable bounding surface leaving aside the smooth fall in temperature and concentration (span wise) across the flow field. Further, it is noted that increase in magnetic field intensity, suction and thermal as well as mass buoyancy parameters enhance the skin friction concomitantly favouring the effective momentum transport.

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Influence of Nonlinear Thermal Radiation and Magnetic Field on Three-Dimensional Flow of a Maxwell Nanofluid

Cited by 23 publications

References 0 publications

Effect of Convective Heat and Mass Conditions in Magnetohydrodynamic Boundary Layer Flow with Joule Heating and Thermal Radiation

Effect of Convective Heat and Mass Conditions in Magnetohydrodynamic Boundary Layer Flow with Joule Heating and Thermal Radiation

Prabhakar fractional derivative model of sodium alginate (C6H9NaO7) for accelerated plate motions

Magnetohydrodynamics stagnation point flow and heat transfer over a non‐isothermal permeable shrinking sheet with variable surface temperature

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