Abstract The intension of present article is to investigate the chemical reaction effect on Cattaneo–Christov magnetohydrodynamic Casson and Carreau-Yasuda Nanofluid flow prompted by a nonlinear stretching sheet considering velocity slip and convective boundary conditions. Joule heating impact is similarly considered. Similarity transformations are utilized to convert governing equations of partial differential equations into nonlinear ordinary differential equations. Scientific plan in particular shooting technique is utilized to illuminate the framework numerically. Plots and tables are used to analyze the results for the skin friction number, the local Nusselt number, and the Sherwood numbers. When compared to previously published literature for specific circumstances, the results produced in this article are shown to be in good accord. Physical parameters are Weissenberg number We, velocity slip parameter α 1 , Thermophoresis number Nt, Nonlinear stretching parameter n , Magnetic field parameter M , Lewis number Le, Brownian motion parameter Nb, Prandtl number Pr, Eckert number Ec, Chemical reaction parameter γ , Thermal Biot number Bi 1 , Concentration Biot number Bi 2 , Casson parameter β . The outcomes of the study could have implications for various engineering and industrial applications that control and manipulate fluid flows and heat transfer. The results of the research may have ramifications for a wide range of industrial and engineering applications that control and regulate heat transfer and fluid dynamics.
Naresh et al. (Thu,) studied this question.