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Please use this identifier to cite or link to this item: https://doi.org/10.21256/zhaw-3682
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dc.contributor.authorBrunner, Daniel-
dc.contributor.authorHäusler, Klaus-
dc.contributor.authorKumar, Sunil-
dc.contributor.authorBoiger, Gernot Kurt-
dc.contributor.authorKhawaja, Hassan Abbas-
dc.contributor.authorMoatamedi, Moji-
dc.date.accessioned2018-05-31T14:06:39Z-
dc.date.available2018-05-31T14:06:39Z-
dc.date.issued2017-12-14-
dc.identifier.issn2409-1669de_CH
dc.identifier.issn2409-7527de_CH
dc.identifier.urihttps://digitalcollection.zhaw.ch/handle/11475/6329-
dc.identifier.urihttps://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d7942615c8d7e4106ee10d7/1568227954088/MULTIPHYSICS+2017+-+Abstracts.pdfde_CH
dc.description.abstractMeasuring viscosity online in processes is crucial to maintaining the quality of many chemical and biological processes. The damping induced by the liquid around the resonator is used to determine the viscosity of the liquids. Typical viscosity sensors are probe style and obstruct the piping system, disturbing the flow and creating a potential source of contamination in critical processes. The eventual goal is to design a non-intrusive sensor capable of accurately measuring the viscosity of the liquids without influencing the flow within the pipe. In order to get a deeper insight into the functionality of such a device, a mathematical model has been developed describing the mechanical vibration coupled with the fluid-structure interaction (FSI) models. The shear stresses at the wall have been analysed using the computational fluid dynamics tool OpenFOAM and have been integrated into the derived model. For validation, the model has been tested against the samples. The model is capable of accurately predicting the response of the sensor and can be used as an optimization and design tool.de_CH
dc.language.isoende_CH
dc.publisherInternational Society of Multiphysicsde_CH
dc.rightsLicence according to publishing contractde_CH
dc.subjectFSIde_CH
dc.subjectViscosityde_CH
dc.subjectMechanical resonatorde_CH
dc.subject.ddc530: Physikde_CH
dc.titleFSI of viscosity measuring mechanical resonators : theoretical and experimental analysisde_CH
dc.typeKonferenz: Posterde_CH
dcterms.typeTextde_CH
zhaw.departementSchool of Engineeringde_CH
zhaw.organisationalunitInstitute of Computational Physics (ICP)de_CH
dc.identifier.doi10.21256/zhaw-3682-
zhaw.conference.detailsInternational Conference of Multiphysics, Beijing, China, 14-15 December 2017de_CH
zhaw.funding.euNode_CH
zhaw.originated.zhawYesde_CH
zhaw.publication.statuspublishedVersionde_CH
zhaw.publication.reviewPeer review (Abstract)de_CH
zhaw.title.proceedingsMultiphysics 2017de_CH
zhaw.webfeedChemieingenieurwesende_CH
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Brunner, D., Häusler, K., Kumar, S., Boiger, G. K., Khawaja, H. A., & Moatamedi, M. (2017, December 14). FSI of viscosity measuring mechanical resonators : theoretical and experimental analysis. Multiphysics 2017. https://doi.org/10.21256/zhaw-3682
Brunner, D. et al. (2017) ‘FSI of viscosity measuring mechanical resonators : theoretical and experimental analysis’, in Multiphysics 2017. International Society of Multiphysics. Available at: https://doi.org/10.21256/zhaw-3682.
D. Brunner, K. Häusler, S. Kumar, G. K. Boiger, H. A. Khawaja, and M. Moatamedi, “FSI of viscosity measuring mechanical resonators : theoretical and experimental analysis,” in Multiphysics 2017, Dec. 2017. doi: 10.21256/zhaw-3682.
BRUNNER, Daniel, Klaus HÄUSLER, Sunil KUMAR, Gernot Kurt BOIGER, Hassan Abbas KHAWAJA und Moji MOATAMEDI, 2017. FSI of viscosity measuring mechanical resonators : theoretical and experimental analysis. In: Multiphysics 2017 [online]. Conference poster. International Society of Multiphysics. 14 Dezember 2017. Verfügbar unter: https://static1.squarespace.com/static/5c9f89c101232c1d41297d67/t/5d7942615c8d7e4106ee10d7/1568227954088/MULTIPHYSICS+2017+-+Abstracts.pdf
Brunner, Daniel, Klaus Häusler, Sunil Kumar, Gernot Kurt Boiger, Hassan Abbas Khawaja, and Moji Moatamedi. 2017. “FSI of Viscosity Measuring Mechanical Resonators : Theoretical and Experimental Analysis.” Conference poster. In Multiphysics 2017. International Society of Multiphysics. https://doi.org/10.21256/zhaw-3682.
Brunner, Daniel, et al. “FSI of Viscosity Measuring Mechanical Resonators : Theoretical and Experimental Analysis.” Multiphysics 2017, International Society of Multiphysics, 2017, https://doi.org/10.21256/zhaw-3682.


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