Abstract
Recently, with the fast growth of new engineering technologies various researchers have presented fantastic dynamism in sightseeing the heat propagation through a wave mechanism instead of essentially by dispersion. Further studies insist that this is not a little temperature phenomenon; however, relatively one which has probable vital physical uses. This topic caught exceptional thought because of its generous uses in industrial and current built-up processes. Thus, here advanced Cattaneo-Christov heat and mass fluxes have been reported for the study of thermo-sloutal time relations. Aspects of MHD, heat sink/soure, variable properties of mass diffusivity and thermal conductivity in mixed convection Carreau fluid have been elaborated. The bvp4c numerical process has been exploited for the solutions of influential factors graphically. The mixed convection factor improves the fluid velocity of Carreau fluid. Our outcomes report the diminishing performance for thermo-relaxation factor on temperature field and sloutal-relaxation factor in concentration field. The escalating performance of mass diffusivity factor has been detected on concentration field. Tables for comparison with former studies with good agreement have been also disclosed.
Abbreviations:
: ratio of stretching rates parameter
: thermal conductivity factor
: mass diffusivity factor
HAM: homotopy analysis method
: magnetic factor
ODEs: ordinary differential equations
PDEs: partial differential equations
: Schmidt number