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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Simulation of the cavitating flow in a model oil hydraulic spool valve using different model approaches

Schümichen, Michel, Rüdiger, Frank, Fröhlich, Jochen, Weber, Jürgen 27 April 2016 (has links) (PDF)
The contribution compares results of Large Eddy Simulations of the cavitating flow in a model oil hydraulic spool valve using an Euler-Euler and a one-way coupled Euler- Lagrange model. The impact of the choice of the empirical constants in the Kunz cavitation model is demonstrated. Provided these are chosen appropriately the approach can yield reasonable agreement with the corresponding experiment. The one-way Euler-Lagrange model yields less agreement. It is demonstrated that this is due to the lack of realistic volumetric coupling, rarely accounted for in this type of method. First results of such an algorithm are presented featuring substantially more realism.
2

Approche multi-échelle pour les écoulements fluide-particules / Multiscale approach for particulate flows

Bernard, Manuel 06 November 2014 (has links)
Cette thèse porte sur l’étude numérique de la dynamique des écoulements fluide-particules au sein des lits fluidisés denses. Le but de ces travaux est d’améliorer la compréhension des phénomènes qui s’y déroulent afin d’optimiser les performances des procédés industriels confrontés à ces écoulements diphasiques. En effet, la diversité des échelles de longueur et les différents types d’interaction fluide-solide et solide-solide rencontrées dans ce type de configuration rendent cette catégorie d’écoulement particulièrement complexe et intéressante à étudier. Le modèle développé à cet effet permet de suivre individuellement la trajectoire des particules et de traiter les collisions avec leurs voisines tandis que la phase fluide est décrite de façon localement moyennée. Dans ce mémoire, nous présentons tout d’abord les origines physiques du phénomène de fluidisation d’une population de particules et les grandeurs physiques qui le caractérisent. Puis nous détaillons le modèle Euler-Lagrange implémenté et présentons une série de tests de validation basés sur des résultats théoriques et des comparaisons à des résultats expérimentaux. Cet outil numérique est ensuite employé pour simuler et étudier des lits fluidisés comportant jusqu’à plusieurs dizaines de millions de particules. Enfin, nous comparons des simulations réalisées conjointement à l’échelle micro et avec le modèle développé au cours de cette thèse à l’échelle méso. / This thesis deals with numerical analysis of particulate flows within dense fluidized beds. The aim of this work is to improve phenomena understanding in such flows in order to optimize engineering processes design. Wide variety of length scales and various fluid-solid and solid-solid interactions makes complex and challenging this type of flows study. The present developed model permits individual particle tracking and handle particles collisions whereas fluid flow is space averaged. In this manuscript, we first present origins of fluidization phenomenon and describe the macroscopic quantities which characterize it. Then we introduce the Euler-Lagrange model we developed and detail its numerical implementation. Moreover, we present a bench of validation tests based both on theoretical results and experimental data comparison. This numerical tool is then used to simulate and study fluidized beds containing up to several tenth of millions particles. Finally, we compare simulations performed both at micro and meso scales, i.e. with the model developed during this thesis.
3

Simulation of the cavitating flow in a model oil hydraulic spool valve using different model approaches

Schümichen, Michel, Rüdiger, Frank, Fröhlich, Jochen, Weber, Jürgen January 2016 (has links)
The contribution compares results of Large Eddy Simulations of the cavitating flow in a model oil hydraulic spool valve using an Euler-Euler and a one-way coupled Euler- Lagrange model. The impact of the choice of the empirical constants in the Kunz cavitation model is demonstrated. Provided these are chosen appropriately the approach can yield reasonable agreement with the corresponding experiment. The one-way Euler-Lagrange model yields less agreement. It is demonstrated that this is due to the lack of realistic volumetric coupling, rarely accounted for in this type of method. First results of such an algorithm are presented featuring substantially more realism.

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