Flame length in the wake of a burning hydrocarbon drop

The effect on flame temperature, burning velocity and carbon limit of adding water vapor to a premixed flame has been investigated using a Bunsen-type burner operated at atmospheric pressure and employing propane and ethylene as fuels. The results'indicate that water vapor does not act as an inert d

Burning A methane diffusion flame was burned in the firoducts of combustion from a lean fiat hydrogenair fame. The flow of methane required to blow ofi the methane flame was found to decrease as the methane ftame was moved away from the hydrogen-air fame.

laser-doppler measurements and particle track photographs of V-shaped flame are presented. The flame is stabilized behind a splitter plal~ in a two-dimensional premixed gas flow. In order to stabilize the flame, the splitter plate must be heated, indicating the importance of the thermal interaction

The size and rate of shedding of wakes of single drops were measured for seven systems and for drop Reynolds numbers of 137-798. The ratio of wake to drop volumes is in general independent of drop size and interfacial tension and is a linear function of the relative density. T'he distance required t