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Observations of soot during droplet combustion at low gravity - Heptane and heptane/monochloroalkane mixtures (1992)

Avedisian, C. T. ; Yang, J. C. ; Jackson, G. S.

In: Other Sources

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Publication Date: 2019-07-12

Description: Experimental observations of the combustion of sooting fuel droplets, performed in a drop tower to create a low gravity environment, are reported. Free n-heptane droplets and suspended droplets of heptane, monochloroalkanes, and mixtures of monochloro-octane and heptane were studied. Initial droplet diameters ranged from 0.4 to 1.1. mm. The results suggest that soot may influence droplet vaporization rates. Spherical symmetry of the flame allowed for extended observation of soot agglomerates inside the droplet flame. Effects of slight convective flows were also observed, both through variations of natural convection around the suspended droplets and through variations in the drift velocities of the unsupported droplets. Slight convective flows around the suspended droplets reduced flame luminosity as well as soot accumulation inside the flame and increased droplet vaporization rates. Mixing monochloro-octane with n-heptane demonstrated the effectiveness of n-heptane in reducing soot emissions from the flames of the chlorinated fuels. Finally, trends of initial droplet diameter with burning rate were observed and may be linked to the effect of droplet size upon soot formation inside the flame.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: International Journal of Heat and Mass Transfer (ISSN 0017-9310); 35; 8 Au; 2017-203

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Combustion of unsupported methanol/dodecanol mixture droplets at low gravity (1991)

Jackson, G. S. ; Avedisian, C. T. ; Yang, J. C.

In: Other Sources

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Publication Date: 2019-07-13

Description: Experiments are reported on the combustion of free or unsupported methanol/dodecanol mixture droplets in a reduced gravity environment. The experiments were conducted in a drop tower. The Grashof number (based on drop diameter) in the moving frame of reference was on the order of 10 exp -5 for the period of droplet burning. Combustion of the mixture droplets was characterized by a multi-stage process indicative of diffusion controlled burning. The flame was not visible during the first stage because of the lighting used, but was visible (and spherical) in the final stage. The results suggested that the mixture droplets did not extinguish. By contrast, methanol droplets consistently extinguished. Microexplosions were not observed for mixtures with initial concentrations of equal volumes of methanol and dodecanol. However, most of the droplets containing initially 75 percent (by volume) of methanol exploded. The initiation of microexplosion, as defined by the occurrence of homogeneous nucleation within the droplet, is explained by comparing the calculated nonlinear variation of superheat limit with composition for a methanol/dodecanol mixture with the boiling point of dodecanol.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: International Symposium on Combustion; Jul 22, 1990 - Jul 27, 1990; Orleans; France

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