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Filtration Adhesives VALUE-ADDED
A Wide Variety of Polymers for Your Filtration Needs…
Epic Resins’ epoxy and polyurethane solutions have solved complex filter manufacturing challenges for decades. Our experts partner with you, leveraging our experience to recommend products or formulate solutions designed for: possible to achieve a high dirt-holding capacity. The fact that the narrowest pore is on the outside of the fabric means that the fabrics can also be back-cleaned very easily by pulse-jet.
Overall, the newly developed Betamesh-PLUS fabrics make it possible to ensure maximum flow rates even with the smallest required pore sizes. As a result, the filtration processes are characterized by low power consumptions and thus energy consumptions. Energy-efficient filtration processes can be realized. Alternatively, the filter area and thus the installation space can be massively reduced with an unchanged flow rate compared to a Dutch Twilled Weave.
The advantages of Betamesh-PLUS fabrics explained here were only illustrated for the filtration of a gas flow. In case of the particle separation out of a liquid continuous phase, the described advantageous properties are also given.
Dr.-Ing. Martin Müller is Head of Research & Development at Spörl KG, Sigmaringendorf Germany. Spörl KG is part of the Swiss G. BOPP Group. He received his academic Master of Science in Process Engineering in 2011 at the University of Stuttgart, Germany. After his studies, Dr. Martin Müller was working as research assistant at the Institute of Mechanical Process Engineering at the University of Stuttgart. In 2017 he received his PhD in Mechanical Process Engineering. Since 2017 he is responsible for the research & development at the G. BOPP Group. Dr. Martin Müller is author of several publications on the characterization and use of metallic filter media and member of the expert committee “Mechanical Separation Processes” of the German Research Association for Process Technology.
References:
1. Piesche, M.: Methoden zur Bewertung der Trenneigenschaften unterschiedlicher Filtermedien (Methods for the assessment of the separation properties of different filter media), final report of the AVIF-project A224, Institute of Mechanical Process Engineering, University of Stuttgart, 2006.
2. Müller, M.: Untersuchungen zum Einsatz von metallischen Filtermedien bei der Filtration von Flüssigkeiten (Investigations on the use of metallic filter media in the filtration of liquids), Shaker, Aachen, 2017.
3. Warth, T.: Experimentelle und numerische Untersuchung von Strömungswider-stand, Abscheide- und Abreinigungsverhalten metallischer Filtermedien (Experimental and numerical investigation of the flow resistance, separation and dedusting behaviour of metallic filter media), Shaker, Aachen, 2013.
