Abstract
•Velocity ratio effect on the behavior of a turbulent plane jet in a coflow.•The potential core length increases with the velocity ratio.•Velocity and the temperature decay rates decrease for stronger coflows.•Virtual origin is shifted towards the upstream of the jet exit for stronger coflows.•Normalized parameters reach a single decay for various coflow ratios.
The influence of the coflow velocity ratio on the behavior of a turbulent plane jet in forced convection was numerically investigated. A finite difference method was used to solve a system of coupled partial differential equations. A comparison was carried out between the numerical results obtained in the present work and the experimental data reported in the literature. It was found that the investigated model reasonably predicts the mean flow properties of the flow field. The present investigation suggests that the potential core length increases as the velocity ratio rises. Analyses of the mean and turbulent parameters showed that, when using a momentum length scale, parameters can reach an asymptotic curve, at different velocity ratios.