STUDY OF MONODISPERSE LIQUID FUEL EVAPORATION IN FLOWING AIR.

J. E. Peters, R. E. Coverdill, J. E. Kirwan, S. D. Caron, H. Krier

Research output: Contribution to journalConference article

Abstract

In order to understand the effects of temperature, pressure and velocity on the evaporation rate of liquid hydrocarbon fuel sprays, a special fuel injector was designed that produces a monodisperse fuel spray. Droplet sizes from 70 to 150 mu m in diameter and spacings from 2 to 15 diameters can be achieved. The injector is mounted in the center of a 15 cm diameter circular duct. Preliminary results obtained at relatively dilute spray conditions for heptane are satisfactorily explained by single droplet evaporation rate expressions. A theoretical effort consisting of an Eulerian solution to the gas phase using the k- epsilon turbulence model and a Lagrangian calculation for the droplets is also described. Modeling results showing gas and liquid phase behavior are presented.

Original languageEnglish (US)
JournalAIAA Paper
StatePublished - Jan 1 1985

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ASJC Scopus subject areas

  • Engineering(all)

Cite this

Peters, J. E., Coverdill, R. E., Kirwan, J. E., Caron, S. D., & Krier, H. (1985). STUDY OF MONODISPERSE LIQUID FUEL EVAPORATION IN FLOWING AIR. AIAA Paper.