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Heat transfer and hydrodynamic studies on two- and three-phase fluidized beds of floating bubble breakers

✍ Scribed by Sang D. Kim; Yoon J. Lee; Jong O. Kim

Book ID
103926727
Publisher
Elsevier Science
Year
1988
Tongue
English
Weight
488 KB
Volume
1
Category
Article
ISSN
0894-1777

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✦ Synopsis

1Heat transfer characteristics in three-phase fluidized beds of floating bubble breakers have been studied in a 0.142 m I.D. x 2.0 m high Plexiglas column fitted with an axially mounted cylindrical heater.

Effects of the liquid and gas velocities, the particle size, the volume ratio of floating bubble breaker to particles on phase holdup, the vertical bubble length, and the heat transfer coefficient have been determined.

In the bubble-coalescing regime, the heat transfer coefficient in three-phase fluidized beds having the volume ratio Vf/Vs of 10-15 % produced a maximum increase in heat transfer coefficient of about 20% in comparison to that in the bed without floating bubble breakers. Also, bubble length and gas-phase holdups exhibited their maximum and minimum values at a volume ratio of 10-15 %. The heat transfer coefficient in three-phase fluidized beds of floating bubble breakers can be estimated from the surface renewal model with isotropic turbulence theory. Heat transfer coefficients expressed in terms of the Nusselt number have been correlated with the particle Reynolds number and the volume ratio of floating bubble breakers to particles.

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