Ain Shams Engineering Journal (Apr 2023)
Insightful into dynamics of magneto Reiner-Philippoff nanofluid flow induced by triple-diffusive convection with zero nanoparticle mass flux
Abstract
The motive behind this article is to investigate the impact of triple diffusive convective flowing on Reiner-Philippoff (R-Ph) past a stretchable surface with Avramenko-Blinov-Shevchuk boundary restrictions. The governing determined partial differential equation (PDEs) are converted into ordinary differential equations (ODEs) with the utilization of similarity conversions and handled these equations computationally with the application of a well-recognized computational structure called Cash and Carp method. The dimensionless parameters used in figures and tables range between 0.1≤γ≤1.1, 0.1≤λ≤2.1, 0≤Nc1≤2, 0.1≤Nc2≤1.3, 0.1≤Le1,Le2,Ld1,andLd2≤2, 0.1≤Nd1≤0.5, 0.1≤Nd2≤0.5, 0≤Rd≤3, 0.1≤∊≤0.5, 0≤Nb≤1, 0≤Nt≤1.2. From numerical outcomes, it is revealed that the velocity field devalues outstanding to an incremental change in the Grashof number factor and the solutal profile escalates by the benefit of an intensification in the Dufour Lewis number. The heat of the fluid amplifies as a consequence of amplification in both linear heat radiation and Brownian diffusion parameters.
