Simultaneous velocity and concentration measurements in the near field of a turbulent low-pressure jet by digital particle image velocimetry-planar laser-induced fluorescence

The main purpose of this work is to develop a method for simultaneous measu rement of velocity and passive scalar concentration by means of digital par ticle image velocimetry and planar laser-induced fluorescence. Details of t he implementation of the method are given, and the technique is applied to measurements of concentration and velocity in the centre-plane of a liquid jet with a Reynolds number of 6,000. The measurements are compared with lar ge eddy simulations. Mean velocities and concentrations, fluctuating veloci ties and concentrations, and correlation between fluctuating velocities and concentrations. are analysed for the first six diameters downstream of the jet exit. The general agreement between measured and simulated results was found to be good, in particular for mean quantities. Mean profiles are als o found to be in good agreement with other experimental work on jets report ed in the literature. The "whole-plane" measurement method was found to be very useful for detailed comparisons of turbulent statistics with simulated data. The inadequacy of models for turbulent mass transport based on the s tandard gradient diffusion concept is demonstrated through the experimental data.