Practical trainings, student assistants and theses

Direct numerical simulation of the lift force acting on a bubble rising in a shear flow (Id 445)

Bachelor theses / Master theses / Diploma theses

Computational fluid dynamics (CFD) is increasingly offering an alternative to experimental optimisation and improvement of both existing and new industrial processes or products, for which otherwise costly and time-consuming test and pilot plants are used. While the simulation of single-phase flows allows stable and reliable predictions, such numerical analyses for multiphase flows have so far only been validated and useful for selected cases due to their complexity and the large number of additional interactions.

In order to extend the applicability of numerical multiphase simulations, the Institute of Fluid Dynamics at the Helmholtz Centre Dresden-Rossendorf carries out experimental and numerical investigations in bubble columns in collaboration with the Institut de Mécanique des Fluides de Toulouse (IMFT) to better understand phase interaction phenomena. The current project focuses on the lateral lift force acting on millimetre-sized bubbles rising through a shear field, with particular interest in the influence of curved shear layers.

The objective of the proposed bachelor or master thesis is to performed direct numerical simulations at IMFT, Toulouse of well controlled configurations of a bubble (spherical or deformed) rising in a shear flow. The simulations will be compared against experiments performed at HZDR.

Department: Computational Fluid Dynamics

Contact: Dr. Hessenkemper, Hendrik, Dr. Lucas, Dirk

Requirements

  • Studies related to fluid dynamics (e.g. mechanical or process engineering, physics etc.)
  • Experience in numerical simulation
  • Good English or French language skills

Conditions

  • Working in a multidisciplinary and international team
  • Place of work: IMFT in Toulouse
  • Start: from March 2025
  • Duration: approx. 6 months

Online application

Please apply online: english / german

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