The Effect of Size, Location and Pumping Direction of Pitched Blade Turbine Impellers on Flow Patterns: LDA Measurements and CFD Predictions
- 1 November 2001
- journal article
- Published by Elsevier in Chemical Engineering Research and Design
- Vol. 79 (8) , 887-894
- https://doi.org/10.1205/02638760152721406
Abstract
No abstract availableThis publication has 19 references indexed in Scilit:
- Complete Drawdown and Dispersion of Floating Solids in Agitated Vessel Equipped with Ordinary Impellers.JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 1999
- A study of an up‐ and a down‐pumping wide‐blade hydrofoil impeller: Part II. CFD analysisThe Canadian Journal of Chemical Engineering, 1998
- Trailing vortices around a 45° pitched‐blade impellerAIChE Journal, 1998
- A study of an up‐ and a down‐pumping wide blade hydrofoil impeller: Part I. LDA measurementsThe Canadian Journal of Chemical Engineering, 1998
- Turbulent flow in a baffled vessel stirred by a 60° pitched blade impellerChemical Engineering Science, 1996
- Simulation of Flow in Stirred Vessels with Axial Flow Impellers: Effects of Various Numerical Schemes and Turbulence Model ParametersIndustrial & Engineering Chemistry Research, 1995
- The mean flow field produced by a 45° pitched blade turbine: Changes in the circulation pattern due to off bottom clearanceThe Canadian Journal of Chemical Engineering, 1993
- The use of upward pumping 45° pitched blade turbine impellers in three-phase reactorsChemical Engineering Science, 1990
- FLOW GENERATED BY PITCHED BLADE TURBINES I: MEASUREMENTS USING LASER DOPPLER ANEMOMETERChemical Engineering Communications, 1989
- Suspending of solid particles in liquid by agitatorsChemical Engineering Science, 1958