Abstract
The structure of flame propagating through lycopodium dust clouds
has been investigated experimentally. Upward propagating laminar
flames in a vertical duct of 1800 mm height and 150x150 mm square
cross-section are observed, and the leading flame front is also visualized
using by a high-speed video camera. Although the dust concentration
decreases slightly along the height of duct, the leading flame edge
propagates upwards at a constant velocity. The maximum upward propagating
velocity is 0.50 m/s at a dust concentration of 170 g/m3. Behind
the upward propagating flame, some downward propagating flames are
also observed. Despite the employment of nearly equal sized particles
and its good dispersability and flowability, the reaction zone in
lycopodium particles cloud shows the double flame structure in which
isolated individual burning particles (0.5-1.0 mm in diameter) and
the ball-shaped flames (2-4 mm in diameter; the combustion time of
4-6 ms) surrounding several particles are included. The ball-shaped
flame appears as a faint flame in which several luminous spots are
distributed, and then it turns into a luminous flame before disappearance.
In order to distinguish these ball-shaped flames from others with
some exceptions for merged flames, they are defined as independent
flames in this study. The flame thickness in a lycopodium dust flame
is observed to be 20 mm, about several orders of magnitude higher
than that of a premixed gaseous flame. From the microscopic visualization,
it was found that the flame front propagating through lycopodium
particles is discontinuous and not smooth.
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