Study of weakly nonlinear double‐diffusive magnetoconvection under concentration modulation

Jakhar, Atul; Kumar, Anand; Gupta, Vinod Kumar

doi:10.1002/htj.22939

Heat Trans

2023

DOI: 10.1002/htj.22939

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Study of weakly nonlinear double‐diffusive magnetoconvection under concentration modulation

Atul Jakhar,

Anand Kumar,

Vinod Kumar Gupta

Abstract: This article explains the heat and mass transfer of electrically conducting Newtonian fluid in double‐diffusive magnetoconvective flow. We have considered two infinite horizontal plates at a constant distance apart under the concentration‐modulated boundary condition. A constant magnetic field is considered in vertically upward directions, which generates an induced magnetic field. We have used the weakly nonlinear analysis to obtain the heat and mass transfer rate using the Ginzburg–Landau equation. The softw… Show more

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Cited by 3 publications

References 39 publications

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Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

Jakhar,

Anurag,

Kumar

2024

Heat Trans

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The presented study is prepared on the triple‐diffusive convection (TDC) in the presence of an internal heat source to examine the rate of heat and mass transport. The weakly nonlinear instability analysis was used to show the effect of gravity modulation. Such phenomena have been found in space vehicle technology, wind turbines, geothermals, and many more. In the realm of geometry, our analysis encompasses the study of two parallel infinite horizontal plates with gravity in the downward direction. For TDC, we have considered two solutes. For the result validation, we have compared the critical Rayleigh number with the available research. The numerical outcomes are presented through graphs for different physical parameters. Based on the outcomes, we conclude that the Richardson, Prandtl, and Lewis numbers increase the mass and heat transport. The main finding of the present article is of the internal heat source that advances convection.

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Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

Jakhar,

Anurag,

Kumar

2024

Heat Trans

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Weakly nonlinear instability analysis of triple diffusive convection under internal heat generator and modulated boundaries

Jakhar,

Kumar,

Gupta

2023

Physics of Fluids

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A nonlinear instability analysis of triple diffusive convection under the time-dependent heat and mass transfer boundary conditions in the presence of internal heat source is evaluated in this study. On various physical parameters, the momentary behavior of both Sherwood and Nusselt number profiles is examined. In the geometry, we have considered two parallel infinite horizontal plates acting gravity vertically downward z-direction. By using the weakly nonlinear analysis, the Ginzburg–Landau equation is generated for the rate of heat and mass transport. Here, we have considered the temperature and concentration of two solutes. The temperature and first concentration of the solute at the lower plate are higher than the upper plate, while the second concentration of the solute at the upper plate is higher compared to that of the lower plate. According to the different modulation, we have considered four cases based on the phase angle of the modulations. The convective heat and mass transports are measured as a function of the Nusselt number (Nu) and Sherwood number (Sh1 and Sh2) for both the concentration. From the results, it is found that the first Lewis number increases all the considered profiles, while Ri increases the Nusselt number profile only. The principal discovery elucidated by this article resides in the observation that the internal heat source, subject to modulated boundaries, maintains the convective instability if different solutes are used from both ends.

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Study of weakly nonlinear double-diffusive magneto-convection with throughflow under concentration modulation

Jakhar,

Kumar,

Joshi

2024

Nonlinear Engineering

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This article aims to study double-diffusive magneto-convective flow of electrically conducting and Newtonian fluid in the presence of throughflow and concentration modulation. Here, two infinite horizontal plates have been considered with heated from below and cooled and salted from above. The flow is also influenced by the induced magnetic field for which a constant magnetic field is applied in the perpendicular direction to the plates and vertically upward direction. A weakly nonlinear analysis is used to obtain the expression of heat and mass transport rate using Ginzburg–Landau equation. The influence of various physical parameters on Nusselt and Sherwood numbers is presented by graphs. From the numerical outcome, it is found that Péclet, Chandrasekhar, and magnetic Prandtl numbers enhance the mass and heat transport rate, while Lewis number increases only the rate of mass transport. The major result of this study is that the onset of convection postpones in the presence of throughflow and magnetic field.

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Study of weakly nonlinear double‐diffusive magnetoconvection under concentration modulation

Cited by 3 publications

References 39 publications

Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

Weakly nonlinear instability analysis in triple‐diffusive convection under gravity modulation in the presence of an internal heat generator

Weakly nonlinear instability analysis of triple diffusive convection under internal heat generator and modulated boundaries

Study of weakly nonlinear double-diffusive magneto-convection with throughflow under concentration modulation

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