ROLE OF MIXING AND RHEOLOGY IN REACTIVE EXTRUSION

K.J. Ganzeveld; Leon P.B.M. Janssen

doi:10.1021/ie00034a022

ROLE OF MIXING AND RHEOLOGY IN REACTIVE EXTRUSION

K.J. Ganzeveld^*, Leon P.B.M. Janssen

^*Corresponding author for this work

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Abstract

To understand the performance of multicomponent reactions in extruders, the mixing mechanism in the extruder has to be understood. Viscosity and quantity differences between the components fed to the extruder considerably influence this mixing process. The extent of their influence on the mixing and therewith the reaction process was investigated with a decolorization reaction in a fully intermeshing counterrotating twin screw extruder with a transparent barrel. It could be concluded that for this type of extruder faster mixing is achieved if one component (mostly a side feed) consists of low viscous material and is present in considerable amounts. Thus an increase in the viscosity ratio between both components leads to a decrease of the mixing length and an increase of the quantity ratio leads to an increase of the mixing length. The experimental results agreed well with the theoretical analysis of the flow behavior in the mixing areas of the extruder.

Original language	English
Pages (from-to)	2398-2403
Number of pages	6
Journal	Industrial and Engineering Chemistry Research
Volume	33
Issue number	10
DOIs	https://doi.org/10.1021/ie00034a022
Publication status	Published - Oct-1994

Keywords

TWIN-SCREW EXTRUDERS
POLYMERIZATION

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title = "ROLE OF MIXING AND RHEOLOGY IN REACTIVE EXTRUSION",

abstract = "To understand the performance of multicomponent reactions in extruders, the mixing mechanism in the extruder has to be understood. Viscosity and quantity differences between the components fed to the extruder considerably influence this mixing process. The extent of their influence on the mixing and therewith the reaction process was investigated with a decolorization reaction in a fully intermeshing counterrotating twin screw extruder with a transparent barrel. It could be concluded that for this type of extruder faster mixing is achieved if one component (mostly a side feed) consists of low viscous material and is present in considerable amounts. Thus an increase in the viscosity ratio between both components leads to a decrease of the mixing length and an increase of the quantity ratio leads to an increase of the mixing length. The experimental results agreed well with the theoretical analysis of the flow behavior in the mixing areas of the extruder.",

keywords = "TWIN-SCREW EXTRUDERS, POLYMERIZATION",

author = "K.J. Ganzeveld and Janssen, {Leon P.B.M.}",

year = "1994",

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T1 - ROLE OF MIXING AND RHEOLOGY IN REACTIVE EXTRUSION

AU - Ganzeveld, K.J.

AU - Janssen, Leon P.B.M.

PY - 1994/10

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N2 - To understand the performance of multicomponent reactions in extruders, the mixing mechanism in the extruder has to be understood. Viscosity and quantity differences between the components fed to the extruder considerably influence this mixing process. The extent of their influence on the mixing and therewith the reaction process was investigated with a decolorization reaction in a fully intermeshing counterrotating twin screw extruder with a transparent barrel. It could be concluded that for this type of extruder faster mixing is achieved if one component (mostly a side feed) consists of low viscous material and is present in considerable amounts. Thus an increase in the viscosity ratio between both components leads to a decrease of the mixing length and an increase of the quantity ratio leads to an increase of the mixing length. The experimental results agreed well with the theoretical analysis of the flow behavior in the mixing areas of the extruder.

AB - To understand the performance of multicomponent reactions in extruders, the mixing mechanism in the extruder has to be understood. Viscosity and quantity differences between the components fed to the extruder considerably influence this mixing process. The extent of their influence on the mixing and therewith the reaction process was investigated with a decolorization reaction in a fully intermeshing counterrotating twin screw extruder with a transparent barrel. It could be concluded that for this type of extruder faster mixing is achieved if one component (mostly a side feed) consists of low viscous material and is present in considerable amounts. Thus an increase in the viscosity ratio between both components leads to a decrease of the mixing length and an increase of the quantity ratio leads to an increase of the mixing length. The experimental results agreed well with the theoretical analysis of the flow behavior in the mixing areas of the extruder.

KW - TWIN-SCREW EXTRUDERS

KW - POLYMERIZATION

U2 - 10.1021/ie00034a022

DO - 10.1021/ie00034a022

M3 - Article

SN - 0888-5885

VL - 33

SP - 2398

EP - 2403

JO - Industrial and Engineering Chemistry Research

JF - Industrial and Engineering Chemistry Research

IS - 10

ER -

ROLE OF MIXING AND RHEOLOGY IN REACTIVE EXTRUSION

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