Litcius/Paper detail

Entropy optimization of MHD non-Newtonian fluid in a wavy enclosure with double diffusive natural convection

Imran Shabir Chuhan, Jing Li, Ziyu Guo, Hasan Shahzad, Muhammad Yaqub

2023Numerical Heat Transfer Part A Applications27 citationsDOI

Abstract

This study investigates the impact of an inclined magnetic field (MHD) on entropy generation in double diffusive natural convective flow in a wavy enclosure filled with a non-Newtonian Casson fluid. The Galerkin Finite Element Method (GFEM) is employed to numerically solve the standard formulation, utilizing quadratic polynomials for momentum interpolation and a linear interpolating function for model approximation. The discretized system is resolved using Newton’s approach and PARDISO's matrix factorization. Through simulations of varying ranges of Rayleigh numbers (1e3≤Ra≤1e5), Casson parameter (0.1≤β≤10), Hartmann numbers (0≤Ha≤40), Lewis numbers (0.1≤Le≤5), and inclined angle gamma (0≤γ≤60o), the study provides valuable insights into the behavior of double diffusive natural convection in the wavy enclosure. Isotherms, iso-concentration contours, and streamlines are analyzed to assess different input distributions, and the study presents graphical representations and tabular data on heat transfer, mass transfer rate, and entropy production.

Topics & Concepts

EnclosureMagnetohydrodynamicsNatural convectionMechanicsNon-Newtonian fluidNewtonian fluidEntropy (arrow of time)ConvectionPhysicsMaterials scienceClassical mechanicsThermodynamicsMagnetic fieldComputer scienceTelecommunicationsQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer and OptimizationRheology and Fluid Dynamics Studies