Dynamic response of segregated two-phase systems subjected to low magnitude vibration and its application to-non-invasive monitoring of a powder mixing transition process

Hdl Handle:
http://hdl.handle.net/10149/98722
Title:
Dynamic response of segregated two-phase systems subjected to low magnitude vibration and its application to-non-invasive monitoring of a powder mixing transition process
Authors:
Yanagida, T. (Takeshi); Matchett, A. J. (Andrew); Asmar, B. N. (Basel); Langston, P. A. (Paul); Walters, J. K. (Julian Keith); Coulthard, J. M. (John)
Affiliation:
University of Teesside. School of Science and Technology. Department of Chemical Engineering; University of Teesside. School of Science and Technology. Department of Civil Engineering.
Citation:
Yanagida, T. et. al. (2003) 'Dynamic response of segregated two-phase systems subjected to low magnitude vibration and its application to-non-invasive monitoring of a powder mixing transition process, Advanced Powder Technology, 14 (5), 571-588
Publisher:
Elsevier BV
Journal:
Advanced Powder Technology
Issue Date:
2003
URI:
http://hdl.handle.net/10149/98722
DOI:
10.1163/156855203322448354
Abstract:
The effect of the mixing quality upon the dynamic response of binary mixtures subjected to low magnitude vibration was investigated. The non-invasive method developed in a previous paper was used to measure the apparent mass as a function of frequency. Horizontally segregated two-phase systems were made by layering the materials. Comparison with well-mixed data showed qualitatively a significant dependence of the apparent mass data upon the quality of mixing, although the quantitative mixing index has not been discussed in this study. The mixing dependence was considered to be attributable to the resonant characteristics of two phases and their interaction effects. Furthermore, the principle was found to be applicable for the monitoring of mixing situations of mixture beds non-destructively and non-invasively. The apparent mass data indicated not only the deviation from an ideal mix, but also the direction of segregation.
Type:
Article
Language:
en
Keywords:
binary powder mixtures; low magnitude vibration; mixing homogeneity; non-invasive monitoring; segregation
ISSN:
0921-8831; 1568-5527
Rights:
Author can archive post-print (ie final draft post-refereeing). For full details see http://www.sherpa.ac.uk/romeo/ [Accessed 13/05/2010]
Citation Count:
1 [Scopus, 13/05/2010]

Full metadata record

DC FieldValue Language
dc.contributor.authorYanagida, T. (Takeshi)en
dc.contributor.authorMatchett, A. J. (Andrew)en
dc.contributor.authorAsmar, B. N. (Basel)en
dc.contributor.authorLangston, P. A. (Paul)en
dc.contributor.authorWalters, J. K. (Julian Keith)en
dc.contributor.authorCoulthard, J. M. (John)en
dc.date.accessioned2010-05-13T13:57:16Z-
dc.date.available2010-05-13T13:57:16Z-
dc.date.issued2003-
dc.identifier.citationAdvanced Powder Technology; 14(5):571-588en
dc.identifier.issn0921-8831-
dc.identifier.issn1568-5527-
dc.identifier.doi10.1163/156855203322448354-
dc.identifier.urihttp://hdl.handle.net/10149/98722-
dc.description.abstractThe effect of the mixing quality upon the dynamic response of binary mixtures subjected to low magnitude vibration was investigated. The non-invasive method developed in a previous paper was used to measure the apparent mass as a function of frequency. Horizontally segregated two-phase systems were made by layering the materials. Comparison with well-mixed data showed qualitatively a significant dependence of the apparent mass data upon the quality of mixing, although the quantitative mixing index has not been discussed in this study. The mixing dependence was considered to be attributable to the resonant characteristics of two phases and their interaction effects. Furthermore, the principle was found to be applicable for the monitoring of mixing situations of mixture beds non-destructively and non-invasively. The apparent mass data indicated not only the deviation from an ideal mix, but also the direction of segregation.en
dc.language.isoenen
dc.publisherElsevier BVen
dc.rightsAuthor can archive post-print (ie final draft post-refereeing). For full details see http://www.sherpa.ac.uk/romeo/ [Accessed 13/05/2010]en
dc.subjectbinary powder mixturesen
dc.subjectlow magnitude vibrationen
dc.subjectmixing homogeneityen
dc.subjectnon-invasive monitoringen
dc.subjectsegregationen
dc.titleDynamic response of segregated two-phase systems subjected to low magnitude vibration and its application to-non-invasive monitoring of a powder mixing transition processen
dc.typeArticleen
dc.contributor.departmentUniversity of Teesside. School of Science and Technology. Department of Chemical Engineering; University of Teesside. School of Science and Technology. Department of Civil Engineering.en
dc.identifier.journalAdvanced Powder Technologyen
ref.citationcount1 [Scopus, 13/05/2010]en
or.citation.harvardYanagida, T. et. al. (2003) 'Dynamic response of segregated two-phase systems subjected to low magnitude vibration and its application to-non-invasive monitoring of a powder mixing transition process, Advanced Powder Technology, 14 (5), 571-588-
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