Thermal and hydrodynamic analysis of a conducting nanofluid flow through a sinusoidal wavy channel

The main objective of current study is investigation on thermo-hydraulic behavior nanofluids in a sinusoidal wavy channel as novel geometry under influences thermophoresis and Brownian motion. Differential quadrature method optimal homotopy asymptotic scheme have been employed to solve the momentum, continuity, energy nanoparticle fraction equations. validity proposed approaches evaluated by comparing with previously published results. impacts some other physical parameters temperature, concentration velocity profiles will be analyzed details. For instance, results indicate that increment leads enhance values temperature distribution. Also, volume enhances decreasing parameter thermophoresis.