Deepak Kumar scite author profile

This article investigates the performance of two models; namely the Brinkman-Forchheimer Darcy model (BFDM) and the Brinkman-extended Darcy model (BDM), in a problem involving mixed convection in a square cavity filled with a porous medium using the multigrid method. The left and right walls, moving in opposite directions, are maintained at different constant temperatures, while the top and bottom walls are thermally insulated. The transport equations were solved numerically by the finite-volume method on a colocated grid arrangement using a quadratic upwind interpolation for convective kinematics (QUICK) scheme. The influence of the key parameters, namely the Darcy number (Da) and Grashof number (Gr) on the flow and heat transfer pattern is examined. Further, the issue of reliability of the results is addressed. The results demonstrate that BDM over-predicts the momentum and heat transfer rates compared with BFDM, which is in conformity with the fact that the additional term present in the BFDM hinders convective effects. The full approximation storage (FAS) multigrid method achieves considerable acceleration of convergence for the present relatively unexplored problem.

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Numerical simulation of mixed convection in a porous medium filled with water/Al₂ O₃ nanofluid

Mittal

Manoj

Kumar

et al. 2012

Heat Trans. Asian Res.

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The present work encloses the application of a Brinkman-extended Darcy model in a problem concerning mixed convection in a lid-driven porous cavity using nanofluids. The transport equations are solved numerically by the finite volume method on a co-located grid arrangement using the Quadratic Upstream Interpolation for Convective Kinematics (QUICK) scheme. The effects of governing parameters, namely, Grashof number (Gr), Darcy number (Da), and solid volume fraction (χ), on the streamlines and the isotherms are studied. The present results are validated by favorable comparisons with previously published results and are in good agreement with them. The present numerical results show that the addition of nanoparticles to a base fluid has produced an augmentation of the heat transfer coefficient and it is found to increase significantly with an increase of the particle volume concentration. It is observed from the results that at the higher value of the Grashof number (Gr = 10 4 ), the average Nusselt number increases with an increase in the Darcy number for a constant solid volume fraction. The detailed results are reported by means of streamlines, isotherms, and Nusselt numbers.

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Mixed azo dyes degradation by an intracellular azoreductase enzyme from alkaliphilic Bacillus subtilis: a molecular docking study

Krithika¹,

Krishnaswamy²,

Kumar

et al. 2021

Arch Microbiol

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Identification of response branches for oscillators with curved and straight contours executing VIV

2018

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Deepak Kumar

Experimental and numerical investigation of liquid–solid binary fluidized beds: Radioactive particle tracking technique and dense discrete phase model simulations

Analysis of Non-Darcy Models for Mixed Convection in a Porous Cavity Using a Multigrid Approach

Numerical simulation of mixed convection in a porous medium filled with water/Al₂ O₃ nanofluid

Mixed azo dyes degradation by an intracellular azoreductase enzyme from alkaliphilic Bacillus subtilis: a molecular docking study

Identification of response branches for oscillators with curved and straight contours executing VIV

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Deepak Kumar

Experimental and numerical investigation of liquid–solid binary fluidized beds: Radioactive particle tracking technique and dense discrete phase model simulations

Analysis of Non-Darcy Models for Mixed Convection in a Porous Cavity Using a Multigrid Approach

Numerical simulation of mixed convection in a porous medium filled with water/Al2 O3 nanofluid

Mixed azo dyes degradation by an intracellular azoreductase enzyme from alkaliphilic Bacillus subtilis: a molecular docking study

Identification of response branches for oscillators with curved and straight contours executing VIV

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Numerical simulation of mixed convection in a porous medium filled with water/Al₂ O₃ nanofluid