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Continuum models for bi-disperse granular material flows capturing the process of size segregation

: Gilberg, Dominik
: Klar, A.; Junk, M.

Volltext urn:nbn:de:0011-n-5256622 (4.0 MByte PDF)
MD5 Fingerprint: 2cd76d92e2a9b3bb3055255bdbfcf944
Erstellt am: 11.1.2019

Stuttgart: Fraunhofer Verlag, 2018, IX, 134 S.
Zugl.: Kaiserslautern, TU, Diss., 2018
ISBN: 978-3-8396-1411-2
Dissertation, Elektronische Publikation
Fraunhofer ITWM ()
industrial applications of scientific research & technological innovation; mechanics of fluids; sedimentology soil science; mathematical modelling; granular material flow; particle-size segregation; continuum modelling; industrial applications of scientific research & technological innovation; Mathematiker; Verfahrenstechniker; Verfahrensingenieur; Entwicklungsingenieur

This thesis deals with the topic of size segregation in granular materials. Mathematical models are developed, describing the granular flow and the segregation process. The granular flow equations consist of a set of Navier-Stokes-like equations as well as an equation for the granular temperature. With the help of the granular temperature equation, the model is able to cover dense and dilute regimes. To derive the segregation equation, special focus is lain on the segregation direction and the packing of binary particle systems. For solving the set of equations, a finite volume approach is chosen. The segregation equation explicitly depends on the volume fraction of the granular system. Since the granular flow model is compressible, the segregation equation requires special numerical treatment. Therefore, a modified Godunov scheme is formulated based on the solutions of the underlying Riemann problems. The method guarantees that the system stays in a physically valid state. The final model is extensively tested using different frameworks in two- and three-dimensional space. Particularly, the influence of the granular flow model on the segregation process is pointed out in detail.