Chemical Reaction Effects on MHD Flow Past a Linearly Accelerated Vertical Plate with Variable Temperature and Mass Diffusion in the Presence of Thermal Radiation

Muthucumaraswamy, R.; Geetha, E.

doi:10.2478/ijame-2013-0044

Cited by 3 publications

(3 citation statements)

References 12 publications

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“…Kataria et al, [7] examined the chemical & radiation reactions' impacts on the Casson fluid flow of MHD via an oscillating vertical plate enclosed in porous media order. Muthucumaraswamy et al, [11] discusses the impacts of 1 st order chemical reactions on a parabolic flow across an infinite vertical plate with changing mass and temp. diffusion.…”

Section: Introductionmentioning

confidence: 99%

Magneto Hydrodynamic Effects on Unsteady Free Convection Casson Fluid Flow Past on Parabolic Accelerated Vertical Plate with Thermal Diffusion

Ganesan Radha,

Ayothi Selvaraj,

Soundararajan Bhavani

et al. 2024

ARFMTS

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The free convection MHD flow of a viscous, chemically reactive, electrically conducted, incompressible, and Casson fluid past a parabolically accelerated vertical plate was examined in the present article along with the transfer of the heat & mass in the incidence of thermal radiation. The inverse Laplace method is used to resolve the dimensionless equations. The concentration and temperature fields, axial and transverse velocity are examined for distinct parameters like the (Casson fluid), Sc (Schmidt number), Gr (thermal Grashof number), Pr (Prandtl number), and Gm (mass Grashof number). Utilizing the temperature of fluid and concentration of species as a solution is also proposed. Graphical representations of the fluctuations in temperature of fluid and velocity along species concentration are provided for several values of relevant flow parameters.

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Section: Introductionmentioning

confidence: 99%

Magneto Hydrodynamic Effects on Unsteady Free Convection Casson Fluid Flow Past on Parabolic Accelerated Vertical Plate with Thermal Diffusion

Ganesan Radha,

Ayothi Selvaraj,

Soundararajan Bhavani

et al. 2024

ARFMTS

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“…Makinde [11] also investigated the complexities of unsteady flow in a hydromagnetic radiating liquid across a perpendicular exterior with a consistent thermal fluctuation. Muthucumaraswamy et al [12] analyzed the combined influence of emanation across a vertically alternating surface, with incalescence variations as well as material dispersion. Ibrahim and Reddy [13] investigated the interaction of emission and material transmission in a magnetohydrodynamic unrestricted convective surge over an elastic exterior, with viscid dispersal and thermal production.…”

Section: Introductionmentioning

confidence: 99%

Effects of chemical reactions in the presence of temperature variations and isothermal mass diffusion over an inclined plate

et al. 2024

International Journal of Applied Mechanics and Engineering

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A detailed study of the erratic circulation around an unbounded inclined plate under fluctuating temperature and isothermal mass dispersion was carried out with a chemical reaction. This work concentrated on the harmonic inclination of the plate in its plane, and the accurate solution of the non-dimensional governing formulations was made possible by the Laplace transform technique. To evaluate their impact on different profiles, the investigation examined a variety of physical factors, including phase inclination, chemical response variable, Schmidt number, thermal Grashof number, mass Grashof number, and duration. Notably, the speed per second increased with decreasing phase angle. Furthermore, a decrease in either the thermal radiation variable or the chemical response variable induced an increase in velocity.

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“…The influence of chemical reaction on a magnetohydrodynamic flow in different flow configurations has been examined by a few authors, viz. Chandrakala [17], Muthucumaraswamy and Geetha [18], Zigta [19], Fenuga et al [20] and Vijayalakshmi and Selvajayanthi [21].…”

Section: Introductionmentioning

confidence: 99%

Flow Features of Thermophoretic MHD Viscous Fluid Flow Past a Converging Channel with Heat Source and Chemical Reaction

Kalita

Choudhury

2021

International Journal of Applied Mechanics and Engineering

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A boundary layer flow of an electrically conducting viscous fluid past a converging channel in the presence of thermophoresis, heat source, chemical reaction, viscous dissipation and simultaneous heat and mass transfer characteristics is studied in the paper. An external magnetic field of uniform strength is applied transversely to the channel. The similarity solution has been used to transform the partial differential equations that represent the problem into a boundary value problem of coupled ordinary differential equations, which in turn are solved numerically using MATLAB’s built in solver bvp4c. Numerical computations are carried out to solve the problem and graphical illustrations are made to get the physical insight of the same. The convergent channel flow problem of an incompressible electrically conducting viscous fluid in the presence of a magnetic field has a wide range of applicability in different areas of engineering, specially in industrial metal casting and control of molten metal flow.

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Chemical Reaction Effects on MHD Flow Past a Linearly Accelerated Vertical Plate with Variable Temperature and Mass Diffusion in the Presence of Thermal Radiation

Cited by 3 publications

References 12 publications

Magneto Hydrodynamic Effects on Unsteady Free Convection Casson Fluid Flow Past on Parabolic Accelerated Vertical Plate with Thermal Diffusion

Magneto Hydrodynamic Effects on Unsteady Free Convection Casson Fluid Flow Past on Parabolic Accelerated Vertical Plate with Thermal Diffusion

Effects of chemical reactions in the presence of temperature variations and isothermal mass diffusion over an inclined plate

Flow Features of Thermophoretic MHD Viscous Fluid Flow Past a Converging Channel with Heat Source and Chemical Reaction

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