S. D. Kim scite author profile

The objective of the present study was to investigate a method to enhance the volumetric rate of oxygen transfer in three-phase fluidized-bed bioreactors. The rates of oxygen transfer from air bubbles to viscous liquid media were promoted by floating bubble breakers in three-phase fluidized beds operated in the bubble coalescing regime. The liquid-phase volumetric oxygen transfer coefficient has been recovered by fitting the axial dispersion model to the resultant data, and its dependence on the experimental variables, such as the gas and liquid flow rates, particle size, concentration of bubble breakers, and liquid viscosity, has been examined. The results indicate that the liquid-phase volumetric oxygen transfer coefficient can be enhanced up to 20-25%. The coefficient exhibits a maximum with respect to the volume ratio of the floating bubble breakers to the fluidized solid particles; it increases with increases in the gas and liquid flow rates and size of fluidized particles, while it decreases with an increase in the liquid viscosity. An expression has been developed to correlate the liquid-phase volumetric oxygen transfer coefficient with the experimental variables.

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Effects of Temperature and Particle Size on Minimum Fluidization and Transport Velocities in a Dual Fluidized Bed

Goo

Seo

Kim

et al. 2009

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A new multi-level statistical model for variable bit rate MPEG sources over ATM networks and its performance study

Yoo

Kim

2001

Computer Communications

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S. D. Kim

Immersed heater‐to‐bed heat transfer in liquid‐solid fluidized beds

Mass transfer in two- and three-phase fluidized beds.

Promotion of oxygen transfer in three‐phase fluidized‐bed bioreactors by floating bubble breakers

Effects of Temperature and Particle Size on Minimum Fluidization and Transport Velocities in a Dual Fluidized Bed

A new multi-level statistical model for variable bit rate MPEG sources over ATM networks and its performance study

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