Numerical simulation for the steady nanofluid boundary layer flow over a moving plate with suction and heat generation

Abstract In the study, steady, laminar, incompressible, convective flow of a viscous fluid over moving plate is investigated theoretically by adopting different types nanoparticles. Radiation, internal heat generation and dissipation effects are considered in energy modeled equation. The governing equations for momentum temperature reduced to dimensionless form via similarity transformations. solutions resultant alongside with transformed boundary conditions numerically obtained using MATLAB package bvp4c. Validation earlier studies done non-internal case two distinct nanoparticles type Cu-water Al-water. Extensive visualization rate distributions various emerging parameters examined. Temperature consistently enhanced rising Eckert number both nanofluids, whereas it strongly values radiation term. Heat transfer coefficient increased nanoparticle volume fraction high medium.