Formation and inflammation of a turbulent jetThe formation and inflammation of a planar, turbulent jet in an incompressible medium is modeled numerically by the use of the random vortex method amended by a flame propagation algorithm. The results demonstrate the dominant influence of turbulent eddies and their interactions upon the development of the jet. Its growth is shown to consist of three stages: formation of small eddies, pairing of eddies with the same sign of circulation, and pairing of eddies of opposite signs. On this basis a number of features of the jet mechanism are revealed, namely penetration, engulfment, entrainment, and intermittency. Two cases of inflammation are considered. In one, the jet is ignited at the center of the orifice, the solution tracing its own inflammation. In the other, combustion is initiated across its full cross section, the results modeling the action of a turbulent torch as it spreads the flame into the combustible surroundings. In both cases the flow field is still dominated by the turbulent eddies and their interactions. However, the coherence among them is encumbered as a consequence of expansion due to the exothermicity of the combustion process.
Document ID
19840035384
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Ghoniem, A. F. (California, University Berkeley, CA; MIT, Cambridge, MA, United States)
Chen, D. Y. (California, University Berkeley, CA; Allison Gas Turbine Operations, Indianapolis, IN, United States)
Oppenheim, A. K. (California, University Berkeley, CA, United States)