Numerical investigation of the performance of several static mixers
- 1 June 1998
- journal article
- research article
- Published by Wiley in The Canadian Journal of Chemical Engineering
- Vol. 76 (3) , 527-535
- https://doi.org/10.1002/cjce.5450760325
Abstract
The performance of six static mixer (Kenics, Inliner, LPD, Cleveland, SMX and ISG) are compared using 3D numerical simulations in laminar creeping flow regime. Numerical pressure drop results are tested against experimental ones, showing overall a good agreement. Besides pressure drop, four criteria (extensional efficiency, stretching, mean shear rate and intensity of segregation) are chosen to compare the static mixers. It appears that Kenics, Inliner, LPD and Cleveland mixers are rather similar. The ISG mixer seems better than this first group of mixers, but pressure drop is too high compared to other advantages. From our numerical results, SMX appears to be the most efficient of the six compared static mixers.Keywords
This publication has 22 references indexed in Scilit:
- Numerical investigation of mixing efficiency of helical ribbonsAIChE Journal, 1998
- Finite‐element simulation of mixing: 2. Three‐dimensional flow through a kenics mixerAIChE Journal, 1997
- Study of mixing efficiency in roll‐millsPolymer Engineering & Science, 1996
- Studies of Mixing Efficiency in Batch and Continuous MixersRubber Chemistry and Technology, 1994
- Flow field analysis of an intermeshing counterrotating twin screw extruderPolymer Engineering & Science, 1994
- Einfluß statischer Mischer auf den Wärmeübergang und den Druckvelust in RohrwärmeaustauschernChemie Ingenieur Technik - CIT, 1991
- The role of energy dissipation in contacting and mixing devicesChemical Engineering & Technology, 1988
- DISPERSION PHENOMENA IN HIGH VISCOSITY IMMISCIBLE FLUID SYSTEMS AND APPLICATION OF STATIC MIXERS AS DISPERSION DEVICES IN SUCH SYSTEMSChemical Engineering Communications, 1982
- Dispersion by laminar flowAIChE Journal, 1982
- Objective and generally applicable criteria for flow classificationJournal of Non-Newtonian Fluid Mechanics, 1979