A Dynamic Model of the Hydrodynamics of a Liquid Fluidized Bed
The efficient design, operation, and scale up of novel fluidized bed bioreactors for direct coal liquefaction require detailed knowledge of reactor axial pressure drop, dispersion of the solid and liquid phases, and the particle size distribution as a function of axial position. In this paper, a ful...
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| Published in | Industrial & engineering chemistry research Vol. 33; no. 9; pp. 2151 - 2156 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington, DC
American Chemical Society
01.09.1994
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0888-5885 1520-5045 |
| DOI | 10.1021/ie00033a018 |
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| Abstract | The efficient design, operation, and scale up of novel fluidized bed bioreactors for direct coal liquefaction require detailed knowledge of reactor axial pressure drop, dispersion of the solid and liquid phases, and the particle size distribution as a function of axial position. In this paper, a fully predictive mathematical description of the hydrodynamics of a liquid fluidized bed, containing no adjustable parameters, is developed. This model is compared with experimental data obtained from a liquid fluidized bed containing finely divided coal particles. The emphasis of this study is the development of a predictive mathematical model to appropriately describe the transient behavior of such systems subject to changes in the liquid superficial velocity. The underlying mathematical treatment of this problem is based on particle mass transport mechanisms of dispersion and convection. The particle velocity responsible for convection and the particle dispersion coefficients were evaluated using correlations developed previously. The comparison of the model predictions with the experimental data for coal fluidized beds shows excellent agreement. |
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| AbstractList | The efficient design, operation, and scale up of novel fluidized bed bioreactors for direct coal liquefaction require detailed knowledge of reactor axial pressure drop, dispersion of the solid and liquid phases, and the particle size distribution as a function of axial position. In this paper, a fully predictive mathematical description of the hydrodynamics of a liquid fluidized bed, containing no adjustable parameters, is developed. This model is compared with experimental data obtained from a liquid fluidized bed containing finely divided coal particles. The emphasis of this study is the development of a predictive mathematical model to appropriately describe the transient behavior of such systems subject to changes in the liquid superficial velocity. The underlying mathematical treatment of this problem is based on particle mass transport mechanisms of dispersion and convection. The particle velocity responsible for convection and the particle dispersion coefficients were evaluated using correlations developed previously. The comparison of the model predictions with the experimental data for coal fluidized beds shows excellent agreement. |
| Author | Scott, Timothy C Asif, Mohammad Kaufman, Eric N Petersen, James N Cosgrove, John M |
| Author_xml | – sequence: 1 givenname: Mohammad surname: Asif fullname: Asif, Mohammad – sequence: 2 givenname: James N surname: Petersen fullname: Petersen, James N – sequence: 3 givenname: Eric N surname: Kaufman fullname: Kaufman, Eric N – sequence: 4 givenname: John M surname: Cosgrove fullname: Cosgrove, John M – sequence: 5 givenname: Timothy C surname: Scott fullname: Scott, Timothy C |
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| Keywords | Liquid fluidization Theoretical study Hydrodynamics Experimental study Dynamic model Mathematical model Liquid solid Modeling |
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| Snippet | The efficient design, operation, and scale up of novel fluidized bed bioreactors for direct coal liquefaction require detailed knowledge of reactor axial... |
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| SubjectTerms | 01 COAL, LIGNITE, AND PEAT Applied sciences BIODEGRADATION BIOREACTORS CARBONACEOUS MATERIALS Chemical engineering CHEMICAL REACTIONS COAL COAL LIQUEFACTION DECOMPOSITION DESIGN DISSOLUTION ENERGY SOURCES Exact sciences and technology FLUID MECHANICS Fluidization FLUIDIZED BEDS FOSSIL FUELS FUELS HYDRODYNAMICS LIQUEFACTION MATERIALS MATHEMATICAL MODELS MECHANICS THERMOCHEMICAL PROCESSES 010405 -- Coal, Lignite, & Peat-- Hydrogenation & Liquefaction |
| Title | A Dynamic Model of the Hydrodynamics of a Liquid Fluidized Bed |
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