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Heat Transfer Model and Energy Dissipation Rate in Bubble Columns with Continuous Operation  

Jang, Ji Hwa (School of Chemical Engineering, Chungnam National University)
Seo, Myung Jae (School of Chemical Engineering, Chungnam National University)
Lim, Dae Ho (School of Chemical Engineering, Chungnam National University)
Kang, Yong (School of Chemical Engineering, Chungnam National University)
Jung, Heon (Synfuel Research Group, KIER)
Lee, Ho Tae (Synfuel Research Group, KIER)
Publication Information
Korean Chemical Engineering Research / v.47, no.5, 2009 , pp. 587-592 More about this Journal
Abstract
Heat transfer model and energy dissipation rate were investigated to examine the heat transfer mechanism in bubble columns with continuous operation. The energy dissipation rate($E_D$) obtained from the unsteady state heat transfer model based on the surface renewal theory was significantly small, comparing with the hydrodynamic energy dissipation rate($P_v$) calculated from the overall hydrodynamic energy balance based on the behaviors and holdups of gas and liquid phases in the column. It was found from these results that the energy dissipation rate based on the surface renewal theory is independent of the hydrodynamic energy dissipation rate obtained from the overall hydrodynamic energy balance in the bubble column, in considering their mechanism. The different two energy dissipation rates were correlated in terms of operating variables within this experimental conditions, respectively.
Keywords
Heat Transfer; Energy Dissipation Rate; Bubble Column;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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