Evaluations of Flow and Mixing Efficiency in the Kneading Disks of a Novel Tri-Screw Extruder

The triple screw extruder is a new equipment of polymer processing. A three-dimensional modelling of a triple screw extruder with combined screws of convey and mixing elements is adopted to investigated the flow and mixing characteristics by using Polyflow software based on finite element method. The axial velocity and pressure distributions in the special central region of the triple screw extruder are specially analyzed. Some mixing evaluated parameters, such as area stretching rate, the probability of mixing index, segregation scale and residence time distribution in different boundary conditions are calculated based on particle tracing method. Moreover, the effects of screw clearance and inlet flow rate of combined screws on the mixing characteristics of polymer melt are discussed. The results show that the increase of the screw clearance can increase the residence time and improve the mixing efficiency of extruder. With the decrease of inlet flow, the distributive mixing efficiency in the triple screw extruder increase gradually.

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Mixing Characteristics of Polymer Melt in Triple Screw Extruders with Combined Screws using Finite Element Method

Xin

Zhu

Wang

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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Numerical Simulation of Fluid Flow and Mixing Dynamics inside Planetary Roller Extruders

Winck

Frerich

2021

International Polymer Processing

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In this contribution, the fluid flow and mixing dynamics inside planetary roller extruders are simulated using the finite element method (FEM) and the mesh superposition technique (MST). Three-dimensional configurations with planetary spindles of varying number and geometry of planetary spindles were created to analyse the influence of the spindle configuration and the rotational speed on the process behavior. Therefore, pressure gradients, flow velocities and directions, shear rates, the mixing index and residence time distributions were evaluated. The distributive and dispersive mixing efficiencies varied depending on the planetary spindle configuration, and these configurations thus suit different processing tasks. In comparison to the standard planetary spindles, the TT3 spindles, with their incomplete toothing, and the knob spindles, with their double transversal helical toothing, showed intense axial and radial mixing. In general, the mixing performance of the planetary roller extruder is explained by a high rate of extensional flow and frequent changes in flow type. The reported numerical approach allows, for the first time, a comprehensive observation of the process behavior of planetary roller extruders.

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Evaluations of Flow and Mixing Efficiency in the Kneading Disks of a Novel Tri-Screw Extruder

Cited by 2 publications

References 19 publications

Mixing Characteristics of Polymer Melt in Triple Screw Extruders with Combined Screws using Finite Element Method

Mixing Characteristics of Polymer Melt in Triple Screw Extruders with Combined Screws using Finite Element Method

Numerical Simulation of Fluid Flow and Mixing Dynamics inside Planetary Roller Extruders

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