Publication Date:
2019-07-13
Description:
A detailed theoretical analysis of the time-varying detonation structure in a monodisperse spray is presented. The theory identifies experimentally observed reaction-zone overpressures as deriving from blast waves formed therein by the explosive ignition of the spray droplets, and follows in time the motion, change in strength, and interactions of these blast waves with one another, and with the leading shock. The results are compared with experimental data by modeling the motion of a finite-size circular pressure transducer through the theoretical data field in an x-t space.
Keywords:
THERMODYNAMICS AND COMBUSTION
Type:
International Symposium on Combustion; Aug 20, 1972 - Aug 25, 1972; University Park, PA
Format:
text
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