Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology

Boiger, Gernot Kurt; Boldrini, Marlon; Siyahhan, Bercan

Full metadata record

DC Field	Value	Language
dc.contributor.author	Boiger, Gernot Kurt	-
dc.contributor.author	Boldrini, Marlon	-
dc.contributor.author	Siyahhan, Bercan	-
dc.date.accessioned	2019-01-16T15:09:43Z	-
dc.date.available	2019-01-16T15:09:43Z	-
dc.date.issued	2018	-
dc.identifier.issn	2409-1669	de_CH
dc.identifier.issn	2409-7527	de_CH
dc.identifier.uri	https://digitalcollection.zhaw.ch/handle/11475/14447	-
dc.identifier.uri	https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf	de_CH
dc.description.abstract	After having developed and validated a Eulerian-Lagrangian simulation model for powder coating applications, the novel OpenFoam® based tool has been steadily enhanced, adapted and improved. In accordance with statistically valid observations from extensive experimental series, various sub-models have been devised in order to further increase the predictive quality of the software. In the course of this improvement- and adaption process i) an efficient scheme to achieve accurate fluid-particle coupling has been introduced, eliminating experimentally non-observable coating imprints on the substrate, ii) a method to realistically predict particle motion close to substrate surfaces as well as particle-surface sticking behaviour has been devised and finally iii) a semi-implicit dynamic particle-charging algorithm has been developed to account for corona-particle charging effects. On the basis of these improvements, solver predictions have become accurate enough to now provide never-before achieved insight into phenomena and parameter dependencies of the powder coating process. In particular the model has greatly helped to better understand connections between coating efficiency as well as coating quality and parameters like applied voltage, volumetric air-flow rate, substrate-pistol distance and substrate-pistol angle. These results constitute the basis of a variety of possible powder coating process improvements in the near future.	de_CH
dc.language.iso	en	de_CH
dc.publisher	International Society of Multiphysics	de_CH
dc.relation.ispartof	The International Journal of Multiphysics	de_CH
dc.rights	Licence according to publishing contract	de_CH
dc.subject	Eulerian-LaGrangian	de_CH
dc.subject	CFD	de_CH
dc.subject	OpenFoam	de_CH
dc.subject	Powder-coating	de_CH
dc.subject.ddc	530: Physik	de_CH
dc.title	Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology	de_CH
dc.type	Konferenz: Sonstiges	de_CH
dcterms.type	Text	de_CH
zhaw.departement	School of Engineering	de_CH
zhaw.organisationalunit	Institute of Computational Physics (ICP)	de_CH
zhaw.conference.details	International Conference of Multiphysics, Krakow, Poland, 13-14 December 2018	de_CH
zhaw.funding.eu	No	de_CH
zhaw.originated.zhaw	Yes	de_CH
zhaw.pages.start	26	de_CH
zhaw.publication.status	publishedVersion	de_CH
zhaw.publication.review	Peer review (Abstract)	de_CH
zhaw.title.proceedings	Multiphysics 2018	de_CH
zhaw.webfeed	Simulation and Optimization	de_CH
Appears in collections:	Publikationen School of Engineering

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Boiger, G. K., Boldrini, M., & Siyahhan, B. (2018). Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology [Conference presentation]. The International Journal of Multiphysics, 26. https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf

Boiger, G.K., Boldrini, M. and Siyahhan, B. (2018) ‘Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology’, in The International Journal of Multiphysics. International Society of Multiphysics, p. 26. Available at: https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf.

G. K. Boiger, M. Boldrini, and B. Siyahhan, “Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology,” in The International Journal of Multiphysics, 2018, p. 26. [Online]. Available: https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf

BOIGER, Gernot Kurt, Marlon BOLDRINI und Bercan SIYAHHAN, 2018. Enhancing the understanding of complex phenomena in powder coating, by applying Eulerian-Lagrangian simulation methodology. In: The International Journal of Multiphysics [online]. Conference presentation. International Society of Multiphysics. 2018. S. 26. Verfügbar unter: https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf

Boiger, Gernot Kurt, Marlon Boldrini, and Bercan Siyahhan. 2018. “Enhancing the Understanding of Complex Phenomena in Powder Coating, by Applying Eulerian-Lagrangian Simulation Methodology.” Conference presentation. In The International Journal of Multiphysics, 26. International Society of Multiphysics. https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf.

Boiger, Gernot Kurt, et al. “Enhancing the Understanding of Complex Phenomena in Powder Coating, by Applying Eulerian-Lagrangian Simulation Methodology.” The International Journal of Multiphysics, International Society of Multiphysics, 2018, p. 26, https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d79421b22d903374b24546b/1568227887439/MULTIPHYSICS+2018+-+Abstracts.pdf.