The influence of cavitation in the breakup of liquid free jets
Abstract
The interaction between a diesel injection nozzle flow and the atomizing jet was investigated over a wide range of Reynolds numbers. If the pressure gradient towards the centerline of the injection nozzle, generated by the curved streamlines, becomes too large, cavitation occurs at the inlet corner. The cavitation region grows in length and boundary surface with increasing Reynolds number. The instability of the reentry flow causes unsteady fluctuations of the cavitation which influences the breakup of the liquid jet, whereby liquid films are generated which take off from the jet. Cavitation amplifies the mechanism of the atomization, based on the interaction between the jet and surrounding gas. The influence of the cavitation on the atomization is restricted to the region directly behind the nozzle exit. The injection pressure and the temperature of the gas hardly affect the atomization. The jet angle depends mainly on the density of the surrounding gas.
- Publication:
-
Thesis Max-Planck-Inst. fuer Stroemungsforschung
- Pub Date:
- March 1991
- Bibcode:
- 1991mpi..rept.....B
- Keywords:
-
- Cavitation Flow;
- Fluid Jets;
- Inlet Nozzles;
- Jet Flow;
- Nozzle Flow;
- Atomizing;
- Breaking;
- Diesel Engines;
- Pressure Gradients;
- Separated Flow;
- Fluid Mechanics and Heat Transfer