The Effects of Thermal Stratification on Flow Past an Infinite Vertical Plate in Presence of Chemical Reaction

Nath, Rupam Shankar; Deka, Rudra Kanta

doi:10.26565/2312-4334-2023-3-19

Cited by 9 publications

(7 citation statements)

References 12 publications

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“…The combined effects of thermal stratification and chemical reaction on the flow past an infinite vertical plate and an accelerated vertical plate, respectively, were investigated by Nath and Deka [20] and Kalita et al [21]. In the same way, Nath et al [22] looks at how thermal stratification affects unstable parabolic flow past an infinite vertical plate. Kumar and Deka [23] conducted research on the impact of thermal and mass stratification on the dynamic flow around a vertical plate that moves at an extremely high speed.…”

Section: Introductionmentioning

confidence: 99%

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Thermal and mass stratification effects on unsteady parabolic flow past an infinite vertical plate with exponential decaying temperature and variable mass diffusion in porous medium

Nath,

Deka

2024

Z Angew Math Mech

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This study looks at how thermal and mass stratification affect the unsteady parabolic flow past an infinite vertical plate with exponentially decaying temperature and variable mass diffusion in a porous medium. The Laplace transform method is applied to solve the governing equations for flow, energy, and mass diffusion. The effects of the both stratification on the flow field, temperature, and mass diffusion are then investigated. The research suggests that the existence of thermal and mass stratification has a considerable influence on the profiles of velocity, temperature, and mass diffusion. It is also found that a stable state is reached for the velocity when both stratification parameters are increased, while stable states are reached for the temperature and concentration when the mass stratification is increased but the thermal stratification is decreased.

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Section: Introductionmentioning

confidence: 99%

“…[19] investigated how the Darcy number affects the onset of convection in a porous medium. The combined effects of thermal stratification and chemical reaction on the flow past an infinite vertical plate and an accelerated vertical plate, respectively, were investigated by Nath and Deka [20] and Kalita et al. [21].…”

Section: Introductionmentioning

confidence: 99%

Thermal and mass stratification effects on unsteady parabolic flow past an infinite vertical plate with exponential decaying temperature and variable mass diffusion in porous medium

Nath,

Deka

2024

Z Angew Math Mech

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“…Furthermore, [15] have investigated how both stratification effects affect infinite vertical cylinders. [16] and [17] conducted a study to investigate the combined impact of thermal stratification and chemical reaction on the flow past an infinite vertical plate and an accelerated vertical plate, correspondingly. Similarly, [18] looks at how thermal stratification affects unsteady parabolic flow past an infinite vertical plate.…”

Section: Introductionmentioning

confidence: 99%

A Numerical Study on the MHD Ternary Hybrid Nanofluid (Cu-Al2O3-TiO2/H2O) in presence of Thermal Stratification and Radiation across a Vertically Stretching Cylinder in a Porous Medium

Nath,

Deka

2024

East Eur. J. Phys.

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The primary objective of this study is to investigate the influence of thermal stratification on the magnetohydrodynamics (MHD) flow of water-based nano, hybrid, and ternary hybrid nanofluids, as they pass a vertically stretching cylinder within a porous media. The nanoparticles Cu, Al2O3, and TiO2 are suspended in a base fluid H2O, leading to the formation of a ternary hybrid nanofluid (Cu + Al2O3 + TiO2/H2O). The use of a relevant similarity variable has been utilized to simplify the boundary layer equations which control the flow and transform the coupled nonlinear partial differential equations into a collection of nonlinear ordinary differential equations. The numerical results are calculated with the 3-stage Lobatto IIIa approach, specifically implemented by Bvp4c in MATLAB. This study presents a graphical and numerical analysis of the effects of various non-dimensional parameters, such as the Prandtl number, radiation parameter, heat source/sink parameter, magnetic parameter, porosity parameter, curvature parameter, thermal stratification parameter, and thermal buoyancy parameter, on the velocity, temperature, skin-friction coefficient, and Nusselt number. The impacts of these parameters are visually depicted through graphs and quantitatively represented in tables. The ternary hybrid nanofluid has a higher heat transfer rate than the hybrid nanofluid, and the hybrid nanofluids has a higher heat transfer rate than ordinary nanofluids.

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“…The impacts of radiation and thermal diffusion on changeable MHD flow via a vertically accelerated porous plate with changeable temperature and changeable mass diffusion while being affected by an applied transverse magnetic field, when a heat source or sink is present are investigated by Ramana Reddy et al [16]. Thermal Stratification's impact on the flow through an infinite vertical plate was studied by Nath et al [18]. Kalita et al [19] examined the effect of thermal stratification on the flow passing an accelerated plate with changeable temperature.…”

Section: Introductionmentioning

confidence: 99%

Heat And Mass Transfer on Flow Past an Accelerated Plate Through Porous Medium with Variable Temperature and Mass Diffusion in Presence of Heat Source/Sink

Rabha,

Deka

2024

East Eur. J. Phys.

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A study to look at how heat and mass transfer affect unsteady MHD flow across an accelerated plate with changing temperature and mass diffusion in the appearance of a heat source (or sink) through a porous medium is presented. Initially, the temperature and concentration of the fluid and plate are considered to be the same at t′ ≤ 0. At t′ > 0, an impulsive uniform acceleration A is applied to the plate in a vertical upward direction. The non-dimensionalised governing equations defining the flow problem are solved using Laplace transform approach. Effect of various physical quantities involved in the velocity, concentration, temperature, the rate of heat transfer and also the rate of mass transfer are investigated through graphs and tables and discussed.

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The Effects of Thermal Stratification on Flow Past an Infinite Vertical Plate in Presence of Chemical Reaction

Cited by 9 publications

References 12 publications

Thermal and mass stratification effects on unsteady parabolic flow past an infinite vertical plate with exponential decaying temperature and variable mass diffusion in porous medium

Thermal and mass stratification effects on unsteady parabolic flow past an infinite vertical plate with exponential decaying temperature and variable mass diffusion in porous medium

A Numerical Study on the MHD Ternary Hybrid Nanofluid (Cu-Al2O3-TiO2/H2O) in presence of Thermal Stratification and Radiation across a Vertically Stretching Cylinder in a Porous Medium

Heat And Mass Transfer on Flow Past an Accelerated Plate Through Porous Medium with Variable Temperature and Mass Diffusion in Presence of Heat Source/Sink

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