Browsing by Author "A. Al-Rahbi"
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PublicationArticle Double diffusive convective motion in a reactive porous medium layer saturated by a non-Newtonian Kuvshiniski fluid(American Institute of Physics Inc., 2022) Dhananjay Yadav; Mukesh Kumar Awasthi; M. Al-Siyabi; S. Al-Nadhairi; A. Al-Rahbi; M. Al-Subhi; Ravi Ragoju; Krishnendu BhattacharyyaThe impact of chemical reactions on the double-diffusive convective motion in a non-Newtonian viscoelastic fluid (Kuvshiniski type) saturated porous layer is examined applying both linear and nonlinear stability techniques. The Darcy model that includes the Kuvshiniski type viscoelastic effect of viscoelastic fluid and the Boussinesq estimation is employed as the momentum equation. The conditions for the occurrence of the stationary and oscillatory style of convective motions are determined by applying linear stability theory in terms of a critical thermal Rayleigh-Darcy number. Using the weakly nonlinear stability analysis, the convective heat and mass transfers are calculated. It is observed that the occurrence of oscillatory convection is possible only if the value of the solute Rayleigh-Darcy number is negative and also depends on other involved physical parameters. With rising values of the Kuvshiniski parameter and the heat capacity ratio, the range of the solute Rayleigh-Darcy number in which oscillatory convection is privileged diminishes, whereas it grows with the chemical reacting parameter and the Lewis number. The critical thermal Rayleigh-Darcy number at which the convective motion occurs increased nearly 3% with a 15% increase in the value of the Kuvshiniski parameter. Furthermore, the convective heat and mass transfers are reduced by growing the Kuvshiniski parameter and the heat capacity ratio, while both are enhanced by increasing the thermal Rayleigh-Darcy number and the solute Rayleigh-Darcy number. © 2022 Author(s).