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Fri, 07 Mar 2008 14:39:26 +0200Fri, 07 Mar 2008 14:39:26 +0200Flow-driven orientation dynamics in two classes of fibre suspensions
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/2009
In this dissertation we consider mesoscale based models for flow driven fibre orientation dynamics in suspensions. Models for fibre orientation dynamics are derived for two classes of suspensions. For concentrated suspensions of rigid fibres the Folgar-Tucker model is generalized by incorporating the excluded volume effect. For dilute semi-flexible fibre suspensions a novel moments based description of fibre orientation state is introduced and a model for the flow-driven evolution of the corresponding variables is derived together with several closure approximations. The equation system describing fibre suspension flows, consisting of the incompressible Navier-Stokes equation with an orientation state dependent non-Newtonian constitutive relation and a linear first order hyperbolic system for the fibre orientation variables, has been analyzed, allowing rather general fibre orientation evolution models and constitutive relations. The existence and uniqueness of a solution has been demonstrated locally in time for sufficiently small data. The closure relations for the semiflexible fibre suspension model are studied numerically. A finite volume based discretization of the suspension flow is given and the numerical results for several two and three dimensional domains with different parameter values are presented and discussed.Uldis Strautinsdoctoralthesishttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/2009Thu, 03 Jul 2008 14:39:26 +0200Frequency Filtering in Telecommunications
https://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1625
Piezoelectric filters are used in telecommunication to filter electrical signals. This report deals with the problem of calculating passing and damped frequency intervals for a filter with given geometrical configurations and materials. Only periodic filters, which are widely used in practice, were considered. These filters consist of periodically arranged cells. For a small amount of cells a numerical procedure to visualise the wave propagation in the filter was developed. For a big number of cells another model of the filter was obtained. In this model it is assumed that the filter occupies an infinite domain. This leads to a differential equation, with periodic coefficients, that describes propagation of the wave with a given frequency in the filter. To analyse this equation the Spectral Theory for Periodic Operators had to be employed. Different ways -- analytical and numerical -- to apply the theory were proposed and analysed.Ariadna Farres Basiana; Hanna Martinsson; Brage Ofstad Vik; Sergiy Pereverzyev; Martin Purrucker; Klaus Erich Schmitz Abe; David Stiel; Uldis Strautinsreporthttps://kluedo.ub.uni-kl.de/frontdoor/index/index/docId/1625Tue, 15 Mar 2005 15:09:58 +0100