• Title of article

    Entropy Generation of Variable Viscosity and Thermal Radiation on Magneto Nanofluid Flow with Dusty Fluid

  • Author/Authors

    Mondal ، Hiranmoy - University of KwaZulu-Natal , Mishra ، Shweta Amity Institute of Information Technology, Amity University , Kundu ، Prabir Kumar Jadavpur University , Sibanda ، Precious - University of KwaZulu-Natal

  • Pages
    12
  • From page
    171
  • To page
    182
  • Abstract
    The present work illustrates the variable viscosity of dust nanofluid runs over a permeable stretched sheet with thermal radiation. The problem has been modelled mathematically introducing the mixed convective condition and magnetic effect. Additionally analysis of entropy generation and Bejan number provides the fine points of the flow. The of model equations are transformed into nonlinear ordinary differential equations which are then transformed into linear form using the spectral quasilinearization method (SQLM) for direct Taylor series expansions that can be applied to nonlinear terms in order to linearize them. The spectral collocation approach is then applied to solve the resulting linearized system of equations. The validity of our model is established using relative entropy generation analysis. A convergence schematic was obtained graphically. Consequence of various parameters on flow features have been delivered via graphs. Some important findings reported in this study that entropy generation analysis have significant impact in controlling the rate of heat transfer in the boundary layer region. The paper acquires realistic numerical explanations for rapidly convergent solutions using the Spectral quasilinearization method. Convergence of the numerical solutions was monitored using the convergence graph. The initial guess values are automatically satisfied the boundary conditions. The resulting equations are then integrated using the Spectral quasilinearization methods. The influence of radiation, heat and mass parameters on the flow are made appropriately via graphs. The effects of varying certain physical parameters of interest are examined and presented.
  • Keywords
    Spectral quasiliearization method , Viscous dissipation , Variable viscosity , Entropy generation , Thermal radiation
  • Journal title
    Journal of Applied and Computational Mechanics
  • Serial Year
    2020
  • Journal title
    Journal of Applied and Computational Mechanics
  • Record number

    2478155