Hydrodynamics and mixing in stirred tanks: Investigation of hydrodynamics and mixing using computational fluid dynamics simulation techniques
Aoyi, Ochieng
ISBN 10: 3838312902 ISBN 13: 9783838312903
Edité par LAP LAMBERT Academic Publishing, 2009
Neuf(s)
Couverture souple
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A propos de cet article
Description :
N° de réf. du vendeur ABLING22Oct2817100593601
Synopsis :
Hydrodynamics in a mixing tanks results from the interaction between the tank geometry and the performance characteristics of the tank internals such as impeller and draft tube. In this book, the standard stirred tank configurations are investigated using both laser Doppler velocimetry (LDV) and computational fluid dynamics (CFD) techniques. The work first focuses on establishing the velocity field in a liquid-only system and then progresses to a solid-liquid system. In the liquid only system, it is shown that a draft tube can be used in a tank stirred by the Rushton turbine, and this improves mixing efficiency and reduces power consumption. For the solid-liquid systems, CFD simulation techniques are developed to determine multiphase mixing features such as cloud height and off-bottom suspension. Poly-disperse multiphase simulation results show the effect of particle size distribution and that of the drag model. The results provide useful information for process optimization and scale up.
Présentation de l'éditeur: Hydrodynamics in a mixing tanks results from the interaction between the tank geometry and the performance characteristics of the tank internals such as impeller and draft tube. In this book, the standard stirred tank configurations are investigated using both laser Doppler velocimetry (LDV) and computational fluid dynamics (CFD) techniques. The work first focuses on establishing the velocity field in a liquid-only system and then progresses to a solid-liquid system. In the liquid only system, it is shown that a draft tube can be used in a tank stirred by the Rushton turbine, and this improves mixing efficiency and reduces power consumption. For the solid-liquid systems, CFD simulation techniques are developed to determine multiphase mixing features such as cloud height and off-bottom suspension. Poly-disperse multiphase simulation results show the effect of particle size distribution and that of the drag model. The results provide useful information for process optimization and scale up.
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Détails bibliographiques
Titre : Hydrodynamics and mixing in stirred tanks: ...
Éditeur : LAP LAMBERT Academic Publishing
Date d'édition : 2009
Reliure : Couverture souple
Etat : New