Litcius/Paper detail

Analytical and numerical study of water-based silver nanofluid (Ag) across a Riga plate with nonlinear radiation and viscous dissipation: A three-dimensional study

S. Eswaramoorthi, S. Divya, Rajat Goel, V. Jeyakrishnan, Reema Jain, K. Loganathan

2024Partial Differential Equations in Applied Mathematics14 citationsDOIOpen Access PDF

Abstract

The primary endeavor of this investigation is to determine the Darcy-Forchheimer flow of water-based silver nanofluid (Ag) across a bidirectional Riga plate with viscous dissipation and nonlinear radiation. By manipulating the pertinent variables, the governing equations undergo a transformation into nonlinear ordinary differential equations. The remodeled flow problems are investigated numerically and analytically using the MATLAB (bvp4c built-in function) algorithm and the homotopy analysis method scheme. The repercussions of the appropriate factors on the x− and y− direction velocity profiles, temperature profile, skin friction coefficient of the x− and y− directions, and local Nusselt number are examined via tables and graphs. It is found that both directional fluid velocities decline in the presence of the suction/injection parameter. Increasing the radiation parameter and the Eckert number exalts the fluid temperature. The surface shear stress decays as the suction/injection parameter and the Forchheimer number grow larger. In addition, a greater heat transfer rate appears on the stationary plate compared to the Riga plate.

Topics & Concepts

Eckert numberNanofluidNusselt numberMechanicsParasitic dragNonlinear systemHomotopy analysis methodSuctionDissipationStream functionMaterials scienceHeat transferBoundary layerPhysicsThermodynamicsReynolds numberTurbulenceVorticityVortexQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows