Global nonlinear stability of bidispersive porous convection with throughflow and depth-dependent viscosity

Tripathi, Vinit Kumar; Shankar, B. M.; Mahajan, Amit; Shivakumara, I. S.

doi:10.1063/5.0174734

Physics of Fluids

2024

DOI: 10.1063/5.0174734

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Global nonlinear stability of bidispersive porous convection with throughflow and depth-dependent viscosity

Vinit Kumar Tripathi,

B. M. Shankar,

Amit Mahajan

et al.

Abstract: The linear instability and the nonlinear stability analyses have been performed to examine the combined impact of a uniform vertical throughflow and a depth-dependent viscosity on bidispersive porous convection using the Darcy theory with a single temperature field. The validity of the principle of exchange of stability is proved. The eigenvalue problems resulting from both linear instability and nonlinear stability analyses with variable coefficients are numerically solved using the Chebyshev pseudo-spectral … Show more

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Cited by 13 publications

References 51 publications

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LTNE effects on two‐layer configuration with throughflow

Y. H.

2024

Heat Trans

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The effect of throughflow on the beginning of convective motion in a fluid layer overlying a fluid‐saturated porous layer is examined theoretically in this article under the local thermal nonequilibrium model. We considered boundaries to be insulating to temperature perturbations. The normal mode approach is employed to analyze the governing equation for a composite configuration, with the solution sought through the regular perturbation technique to assess linear stability. The critical Rayleigh number, signifying the initiation of stationary convection, has been determined by solving the system of coupled equations. It is found that the system attains stability with increased porosity–conductivity ratios, regardless of the throughflow direction. This stability is consistently observed for depth ratios of 0.1 and 0.2. However, for higher depth ratios (0.5 and 1.0), the system exhibits dual nature stability when throughflow is present. Further, the stability of the system is enhanced by a graphical depiction illustrating how the throughflow parameter, porosity‐scaled conductivity ratio, depth ratio, Darcy number, and Prandtl number collectively influence the onset of convective motion.

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LTNE effects on two‐layer configuration with throughflow

Y. H.

2024

Heat Trans

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Influence of magnetic fields and bounding surface configurations on thermal convection in partially ionised plasmas: nonlinear and linear stability analyses

Chandel,

Sunil

2024

Pramana - J Phys

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Stability Analysis of Mixed Convection of Nanofluid Flow Through a Horizontal Porous Channel Using LTNE Model

S V,

et al. 2024

Microgravity Sci. Technol.

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Global nonlinear stability of bidispersive porous convection with throughflow and depth-dependent viscosity

Cited by 13 publications

References 51 publications

LTNE effects on two‐layer configuration with throughflow

LTNE effects on two‐layer configuration with throughflow

Influence of magnetic fields and bounding surface configurations on thermal convection in partially ionised plasmas: nonlinear and linear stability analyses

Stability Analysis of Mixed Convection of Nanofluid Flow Through a Horizontal Porous Channel Using LTNE Model

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