Simulation of Polymer Melt Flow Fields in Intermeshing Co-Rotating Three-Screw Extruders 被引量：5

Simulation of Polymer Melt Flow Fields in Intermeshing Co-Rotating Three-Screw Extruders

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摘要 Three-dimension isothermal flows of polymer melt in the kneading blocks of triangularly-arranged and parallelly-arranged intermeshing co-rotating three-screw extruders are simulated using the finite element package POLYFLOW. Based on the velocity fields calculated, the particle trajectories in both machines are visualized using particle tracking technique. The numerical results indicate that the flow patterns in three-screw extruders are similar to those in twin-screw extruders. The triangularly-arranged three-screw extruder has the largest pumping capacity and also the highest extrusion stability in terms of flowrate fluctuation with screw rotation. The instantaneous mixing and cumulative residence time distribution （RTD） characteristics are also analyzed and compared with traditional intermeshing co-rotating twin-screw extruders. It is shown that the start section of the cumulative RTD curve for the triangularly-arranged machine has a small shoulder, which is attributed to the faster flow in the central region of this type of extruder. Three-dimension isothermal flows of polymer melt in the kneading blocks of triangularly-arranged and parallelly-arranged intermeshing co-rotating three-screw extruders are simulated using the finite element package POLYFLOW. Based on the velocity fields calculated, the particle trajectories in both machines are visualized using particle tracking technique. The numerical results indicate that the flow patterns in three-screw extruders are similar to those in twin-screw extruders. The triangularly-arranged three-screw extruder has the largest pumping capacity and also the highest extrusion stability in terms of flowrate fluctuation with screw rotation. The instantaneous mixing and cumulative residence time distribution （RTD） characteristics are also analyzed and compared with traditional intermeshing co-rotating twin-screw extruders. It is shown that the start section of the cumulative RTD curve for the triangularly-arranged machine has a small shoulder, which is attributed to the faster flow in the central region of this type of extruder.

作者胡冬冬陈晋南

机构地区 School of Chemical Engineering and Environment

出处《Journal of Beijing Institute of Technology》 EI CAS 2006年第3期360-365,共6页 北京理工大学学报（英文版）

关键词 numerical simulation 3-D isothermal flow three-screw extruders numerical simulation 3-D isothermal flow three-screw extruders

分类号 TQ311 [化学工程—高聚物工业]

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参考文献8

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Journal of Beijing Institute of Technology

2006年第3期

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Simulation of Polymer Melt Flow Fields in Intermeshing Co-Rotating Three-Screw Extruders 被引量：5

参考文献8

同被引文献20

引证文献5

二级引证文献36

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