Experimental investigation of the entrained droplet velocities in a submerged jet injected into a stagnant water pool

Round turbulent air jets submerged in stagnant water have been studied experimentally in this paper. To achieve this objective a water pool with an air injector has been built and particle image velocimetry visualization techniques (PIV) have been employed to capture images of the submerged jet throughout its spreading. From these images one of the most important variables that characterizes submerged jets the velocity of the entrained droplets, was determined, finding that the function which best fits the entrained droplet velocity distribution is a decreasing exponential function. In addition, a correlation that relates the initial submerged gaseous jet properties, via the gas Reynolds number, with the entrained droplet velocities was developed, in this case via the entrained droplet Reynolds number.