Observations on a Slow Burning Regime for Hydrocarbon Droplets - N-Heptane/Air ResultsExperiments on n-heptane/airdroplet combustion under reduced gravity have served as a benchmark for much of the existing theoretical efforts on the modeling of sphero-synmmetric droplet burning. New experiments conducted in the NASA-Lewis Research Center 2.2 second droptower (at less than 10 exp -5 g) which emphasize the production of sphero-symmetry and low relative droplet/gas convection produce burning rates in air (for about 1 mm droplets) as much as 40-percent lower than the classical result (0.78 sq mm/s). The burning rate is proportional to the measured droplet/gas relative velocity, and the observed functional dependence is much larger than predicted by published convective correlations. New results clearly indicate that the droplet/laboratory velocity does not correspond to the relative droplet/gas velocity. Thus, the convective effects on droplet combustion is not properly characterized by droplet motion alone. Differences in the burning rates are speculated to result from the effects of the accumulated soot as well as the asymmetry (caused by convection) in the temperature and species distributions surrounding the droplet.
Document ID
19920033978
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Choi, Mun Y. (Princeton Univ. NJ, United States)
Dryer, Frederick L. (Princeton University NJ, United States)
Haggard, John B., Jr. (NASA Lewis Research Center Cleveland, OH, United States)