Experimental Investigation on the Fluctuation Intensities in a Stationary Spray 981066
In diesel engines, the existence of a very dense liquid region could dramatically increase the rate of soot formation due to the very low air penetration. This experimental study is a contribution to the understanding of the structure of such dense sprays. It is devoted to the influence of the injection pressure on the characteristics of a water stationary confined jet with emphasis on the fluctuating behavior of droplets and on air entrainment. A two component Phase Doppler Anemometer allows the measurement of velocities and diameter of the droplets. Velocity and fluctuation intensities are plotted in the axial and radial direction for many cross sections in the spray. First, we discuss the influence of the gas flow around the jet: when the jet does not discharge in an open atmosphere, the dense core length is twice as short as with an open atmosphere. The main result is the existence of two distinct regions in the spray which illustrate some aspects of air entrainment. Near the nozzle, the axial fluctuating intensities are higher at the edge of the jet while the radial fluctuating intensities are higher on the axis. Far from the nozzle, the axial fluctuations are higher on the jet axis whereas the radial fluctuations remain constant. Finally, we find that the droplet sizes in this stationary jet are bigger on the axis than at the edge. This is probably related to the previous remarks.
Citation: Boëdec, T., Champoussin, J., and Jondeau, E., "Experimental Investigation on the Fluctuation Intensities in a Stationary Spray," SAE Technical Paper 981066, 1998, https://doi.org/10.4271/981066. Download Citation
Author(s):
Thomas Boëdec, Jean-Claude Champoussin, Emmanuel Jondeau
Affiliated:
Ecole Centrale de Lyon, LMFA, UMR CNRS 5509
Pages: 10
Event:
International Congress & Exposition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
Diesel Fuel Injection and Sprays-SP-1316
Related Topics:
Diesel / compression ignition engines
Particulate matter (PM)
Nozzles
Pressure
Water
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