Shyam Lal Yadav scite author profile

In this paper, we have considered a fully developed flow of a viscous incompressible fluid in a rectangular porous duct saturated with the same fluid. The duct is heated from the bottom for forced and mixed convection. The Brinkman model is used to simulate the momentum transfer in the porous duct. Using the momentum and thermal energy equations, the entropy generation has been obtained due to the heat transfer, viscous and Darcy dissipations. It is found from the mathematical analysis that the entropy generation is double when the viscous as well as the Darcy dissipations terms are taken in the thermal energy equation in comparison when the viscous as well as the Darcy dissipations terms are not taken in the thermal energy equation. This result clearly shows that there is no need of taking the viscous and Darcy dissipations terms in the thermal energy equation to obtain the entropy generation.

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Analysis of Entropy Generation in a Horizontal Channel Containing Fluid and Porous Layers

Yadav

Singh

2019

J Por Media

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Transient Flow in a Circular Cylinder Filled with Porous Material

Yadav

Singh

2018

Int. J. Appl. Comput. Math

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Analysis of magnetohydrodynamics transient flow in a horizontal annular duct

Maurya

Yadav²,

Singh

2020

Int. J. Dynam. Control

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Shyam Lal Yadav

Magnetohydrodynamic transient flow in a circular cylinder

Analysis of Entropy Generation in a Rectangular Porous Duct

Analysis of Entropy Generation in a Horizontal Channel Containing Fluid and Porous Layers

Transient Flow in a Circular Cylinder Filled with Porous Material

Analysis of magnetohydrodynamics transient flow in a horizontal annular duct

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