Impact of electroosmotic flow on a Casson fluid driven by chemical reaction and convective boundary conditions

Vijayaragavan, R.; Bharathi, V.Jeeva; Prakash, J.

doi:10.1002/htj.22113

Cited by 8 publications

(2 citation statements)

References 39 publications

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“…They noticed that the electroosmosis parameter accelerates as the axial fluid velocity profile rises and reversed behavior is noticed in Helmholtz–Smoluchowski velocity. Also, Vijayaragavan et al 40 observed the influence of EMHD on Casson fluid flow through a perpendicular accelerated plate in the presence of joule heating and radiation parameters. They noticed that snowballing the electroosmosis parameter leads to a stronger velocity distribution.…”

Section: Introductionmentioning

confidence: 99%

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

Bharathi¹,

Prakash²,

Vijayaragavan

et al. 2022

Heat Trans

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The present research may facilitate the reduction of the number of conversion steps required to include the low output voltages in an electrokinetic biomass process. Variable thermal conductivity and electroosmosis flow have already established great potential in the thermoelastic models of various manufacturing industries and have been widely used in energy technologies. As a result, the current framework investigates the characteristics of natural convection flow with the influence of variable thermal conductivity and electroosmosis over an eternity vertical porous plate. Coriolis forces and Hall current effects are considered in the momentum equations, and also thermal radiation and variable thermal conductivity are taken as energy equations. A linear chemical reaction parameter is used in the concentration equation. The equation of Poisson-Boltzmann is exploited to depict the electric potential characteristics within the accelerated plate medium. The pdepe command in Matlab software is used to figure out the numerical solutions to equations about momentum, energy, and concentration. The expressions of fluid transverse velocity, fluid axial velocity, fluid temperature, and concentration profiles

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Section: Introductionmentioning

confidence: 99%

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

Bharathi¹,

Prakash²,

Vijayaragavan

et al. 2022

Heat Trans

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“…Zaher et al [42] analyzed the electro-osmotic forces in the non-Darcian flow of Williamson fluid containing microorganisms. Moreover, Rajaram et al [43] discussed the effects of thermal radiation on the electro-osmotic flow of Casson fluid towards an exponentially stretching sheet.…”

Section: Introductionmentioning

confidence: 99%

Heat Transport Phenomena for the Darcy–Forchheimer Flow of Casson Fluid over Stretching Sheets with Electro-Osmosis Forces and Newtonian Heating

et al. 2021

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In this study, an investigation has been carried out to analyze the impact of electro-osmotic effects on the Darcy–Forchheimer flow of Casson nanofluid past a stretching sheet. The energy equation was modelled with the inclusion of electro-osmotic effects with viscous and Joule dissipations. The governing system of partial differential equations were transformed by using the suitable similarity transformations to a system of ordinary differential equations and then numerically solved by using the Runge–Kutta–Fehlberg method with a shooting scheme. The effects of various parameters of interest on dimensionless velocity and temperature distributions, as well as skin friction and heat transfer coefficient, have been adequately delineated via graphs and tables. A comparison with previous published results was performed, and good agreement was found. The results suggested that the electric and Forchheimer parameters have the tendency to enhance the fluid velocity as well as momentum boundary layer thickness. Enhancements in temperature distribution were observed for growing values of Eckert number. It was also observed that higher values of electric field parameter diminished the wall shear stress and local Nusselt number.

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Impact of the electromagnetic flow of an MHD Casson fluid over an oscillating porous plate

Vijayaragavan

Bharathi²,

Prakash³

2022

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This study deals with the effect of electric force and magnetohydrodynamics (MHD) of the transient state on natural convection flow past an oscillating vertical plate. In addition to this, thermal radiation and porous media are also examined in the Casson fluid flow. The Poisson-Boltzmann equation is employed to show the electric potential character within the fluid region, which is put into a linear form by the implementation of Debye-Hückel linearization. It is possible to compute the precise solution to the governing equations using the Laplace transform approach. The expression of fluid velocity, fluid concentration, and temperature are exposed graphically, and numerical results for Nusselt and Sherwood numbers are also derived for vital pertinent flow constraints. Increasing electroosmosis parameters strongly boosts fluid velocity. The nonnegative values of the Helmholtz-Smoluchowski velocity highly induce the axial velocity and the negative value decelerates. With increasing radiation strength and Prandtl number, the fluid's temperature distribution diminishes. These more intricate electrokinetic rheological flows associated with electroosmotic separators, such as biomedical absorbers, are illuminated by these models.

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Impact of electroosmotic flow on a Casson fluid driven by chemical reaction and convective boundary conditions

Cited by 8 publications

References 39 publications

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

Rotation, electromagnetic field, and variable thermal conductivity effects on free convection flow past an eternity vertical porous plate

Heat Transport Phenomena for the Darcy–Forchheimer Flow of Casson Fluid over Stretching Sheets with Electro-Osmosis Forces and Newtonian Heating

Impact of the electromagnetic flow of an MHD Casson fluid over an oscillating porous plate

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