Frenzel, Patrick

2023-11-09T06:48:23Z

2023-11-09T06:48:23Z

2023-05-11

<div class="csl-bib-body"> <div class="csl-entry">Frenzel, P. (2023, May 11). <i>Experimental analysis of the residence time distribution in a single screw rubber extruder using a digital image processing method</i> [Conference Presentation]. IRC RubberCon 2023, Edinburgh, United Kingdom of Great Britain and Northern Ireland (the).</div> </div>

http://hdl.handle.net/20.500.12708/189523

With the ongoing digitalization in the industrial sector, also called Industry 4.0, automation techniques promise huge potential for the rubber industry. Advanced automation methods allow for precise control of the extrusion process and improve the consistency in product quality. Since product quality is affected by process parameters in a complex way, predicting the flow conditions and the mixing in an extruder is a prerequisite for more sophisticated Industry 4.0 applications. These Industry 4.0 applications hence require for short computing times and thus sufficiently fast models for implementation in production systems. A useful measure for the flow inside the extruder is the residence time distribution (RTD). It enables an analysis of the residence time of the material particle in the process and subsequently a statement about the homogenization characteristics. For the investigation of the RTD and the effect of process parameters on residence time characteristics, a single-screw rubber extruder equipped with a gear pump was considered. In this work we present a method to identify the RTD for a certain compound using experiments. We describe an experimental procedure with a special tracer material and a modified image processing method to detect the RTD. To validate the method, the experiment was repeated and compared in a predefined reference state. The RTD curves are then used to identify effects of process parameters on the throughput behaviour of the extrusion process. Based on the results we discuss how the RTD can be used to interpret the flow conditions and the mixing behaviour inside the extruder.

Semperit Technische Produkte GmbH

en

rubber extrusion

residence time distribution

digital image processing

Experimental analysis of the residence time distribution in a single screw rubber extruder using a digital image processing method

Presentation

Vortrag

Vertrag1

Conference Presentation

Erstellung einer Digital Twin Architecture für einen Extrusionsprozess

C6

Modeling and Simulation

100

https://www.iom3.org/events-awards/rubbercon-2023.html

E302-03 - Forschungsbereich Industrielle Energiesysteme

E302 - Institut für Energietechnik und Thermodynamik

0000-0002-0253-5557

IRC RubberCon 2023

09-05-2023

11-05-2023

On Site

Event for scientific audience

Edinburgh

GB

IM3-Institute of Materials, Minerals & Mining

Frenzel, Patrick

Maschinenbau

2030

100

en

conference paper not in proceedings

restricted

no Fulltext

Publications

http://purl.org/coar/resource_type/c_18cp

E302-03 - Forschungsbereich Industrielle Energiesysteme

0000-0002-0253-5557

E302 - Institut für Energietechnik und Thermodynamik

Semperit Technische Produkte GmbH

Vertrag1