Magnetohydrodynamics flow of a nanofluid driven by a stretching/shrinking sheet with suction

Mahabaleshwar, U. S.; Kumar, P. N. Vinay; Sheremet, Mikhail A.

doi:10.1186/s40064-016-3588-0

Cited by 59 publications

(21 citation statements)

References 14 publications

(15 reference statements)

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“…Spalding [31] investigated the mass or species transfer in viscous flow over a flat plate, vertical plate and sphere using the Karman-Pohlhausen-Kroujiline method. Recently, Mahabaleshwar et al [32][33][34][35][36][37][38][39] and Khan et al [40][41][42][43] have investigated analytical examination to impact of different fluids with numerous parameters MHD/porous media flow.…”

Section: Symbolsmentioning

confidence: 99%

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

et al. 2021

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The influence of inclined magnetic field and heat and mass transfer of a hydromagnetic fluid on stretching/shrinking sheet with Stefan blowing effects and radiation has been investigated. The elementary viscous equations for momentum, heat and mass transfer, which are highly nonlinear partial differential equations, are mapped into highly nonlinear ordinary differential equations with the help of similarity transformation. The subsequent highly nonlinear differential equation is solved analytically. The exact solution of heat and mass transfer appearances is found in terms of the incomplete gamma function. The species and temperature boundary conditions are assumed to be a linear function of the distance from the origin. Further, the impact of various parameters, such as Chandrasekhar number, thermal radiation, inclined Lorentz force and mass transpiration on velocity and temperature summaries, are conferred in detail.

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Section: Symbolsmentioning

confidence: 99%

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

et al. 2021

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“…Buongiorno model has been also used by Ghasemian et al (2019) to investigate the unsteady three-dimensional (3D) stagnation point flow of a viscoelastic nanofluid past a circular cylinder with sinusoidal radius variation. The analysis of nanofluid in the presence of suction/injection and magnetic field has been investigated by Mahabaleshwar et al (2016). They concluded: electromagnetic effect reduces the horizontal flow resulting from stretching.…”

Section: Introductionmentioning

confidence: 99%

TiO₂-Ag/blood hybrid nanofluid flow through an artery with applications of drug delivery and blood circulation in the respiratory system

Chahregh

Dinarvand

2020

HFF

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Purpose As transferring biological fluid through an artery is nowadays a pivotal subject, the purpose of this paper is to study the mathematical model of hybrid nanofluid flow comprising pure blood as base fluid and TiO2 and Ag as nanoparticles through the porous channel, which can be an applicable model for drug delivery. Design/methodology/approach Both walls of the channel have different permeability, which enables the fluid to enter and exit, and variable height, which dilates and squeezes at the uniform rate. By taking advantage of the similarity transformation technique, governing equations have been converted into a system of the non-linear ordinary differential equation. This problem is solved numerically by utilizing BVP4C built-in function in MATLAB software to explore the impacts of pertinent parameters. Findings The plots of velocity and temperature profile, normal pressure distribution and wall shear stress, as well as Nusselt number for involved parameters, are presented and the logic and physical reasons beyond them are highlighted. It has been observed that the asymmetry of the channel, caused by different permeability at walls, affects the nature of flow significantly. Originality/value To the best of the authors’ knowledge, no one has ever attempted to study the flow through a deformable porous channel with blood as a base fluid and as hybrid nanoparticles to describe medical phenomena and treatment applications. Indeed, the achievements of this paper are purely original and the numerical results were never published by any researcher.

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“…Here M = is the Chandershekhar number (magnetic parameter) [41][42][43]. Also, comparing the coefficient ξ and ξ (constant), we get…”

Section: Methodsmentioning

confidence: 99%

Effect of Aligned Magnetic Field and Inclined Outer Velocity in Casson Fluid Flow Over a Stretching Sheet With Heat Source

Devi

Poply²,

Mala

2021

Journal of Thermal Engineering

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The purpose of this study was to assess the effect of the inclined outer velocity on heat and flow transportation in boundary layer Casson fluid over a stretching sheet. The flow is adopted to have non-orthogonal magnetic field with heat generation in the uniform manner on stretching surface. It has been taken that in both the directions along the xaxis, the sheet is stretched. By applying similarity transformations, the governing equations representing the heat and flow transportation are converted to ordinary differential equations. Runge-Kutta Fehlberg approach was adopted to solve numerically the moulded differential equations with the help of shooting technique. The flow is also governed by the heat source parameter, Casson fluid parameter, magnetic parameter, Prandtl number, aligned angle of magnetic field and the impinging angle parameter. The results revealed that velocity decreases with an increase in Casson fluid parameter, magnetic parameter and aligned angle of magnetic field for the case of outer velocity parameter less than one while velocity increases for the case of outer velocity parameter greater than one because of the inverted boundary layer formation for velocity profile in second case. Also, the fluid temperature increases (for the case of outer velocity parameter less than one) and temperature decreases (for the case of outer velocity parameter greater than one) with an increase in Casson fluid parameter, impinging angle parameter and aligned angle parameter. The results indicate that outer velocity and aligned magnetic field has a significant impact on fluid temperature and velocity. The behaviour of emerging fluid parameters on fluid temperature and velocity are depicted graphically and their effect on local Nusselt number () and skin friction coefficient are represented by tables. The finding of this study may serve as to control the rate of heat transportation and fluid velocity in many manufacturing processes and industrial applications to make the desired quality of final product. Acceptance of the extant technique used in current study is correlated with the existing outcomes in the literature.

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Magnetohydrodynamics flow of a nanofluid driven by a stretching/shrinking sheet with suction

Cited by 59 publications

References 14 publications

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

TiO₂-Ag/blood hybrid nanofluid flow through an artery with applications of drug delivery and blood circulation in the respiratory system

Effect of Aligned Magnetic Field and Inclined Outer Velocity in Casson Fluid Flow Over a Stretching Sheet With Heat Source

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Magnetohydrodynamics flow of a nanofluid driven by a stretching/shrinking sheet with suction

Cited by 59 publications

References 14 publications

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

Impact of Inclined Lorentz Force and Schmidt Number on Chemically Reactive Newtonian Fluid Flow on a Stretchable Surface When Stefan Blowing and Thermal Radiation are Significant

TiO2-Ag/blood hybrid nanofluid flow through an artery with applications of drug delivery and blood circulation in the respiratory system

Effect of Aligned Magnetic Field and Inclined Outer Velocity in Casson Fluid Flow Over a Stretching Sheet With Heat Source

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TiO₂-Ag/blood hybrid nanofluid flow through an artery with applications of drug delivery and blood circulation in the respiratory system