Contact

Prof. Dr. Uwe Hampel
Head
u.hampel@hzdr.de
Phone: +49 351 260 - 2772
Fax: 12772, 2383

Grundlegende Phänomene in Mehrphasenströmungen

Die Entwicklung von Modellen sowie die Validierung numerischer Berechnungsverfahren für Strömungsprozesse mit mehreren Phasen erfordern experimentelle Daten mit hoher räumlicher und zeitlicher Auflösung. Experimentelle Studien werden durch unsere Abteilung an den Versuchsanlagen TOPFLOW und TOPFLOW+ durchgeführt.

Foto: Gas liquid flows in vertical pipes - reference picture ©Copyright: Matthias Beyer

Gas liquid flows in ­vertical pipes

Simulation programs for one- and three-dimensional flows provide good results for single-phase flows. But in two-phase flows and in complex geometries the quality of flow prediction is often insufficient. This can be improved by measurements in high temporal and spatial resolution.
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Foto: Zweiphasige Umströmung von Hindernissen - reference picture ©Copyright: Martin Neumann

Two-phase flow around obstacles

This project deals with high-resolution visualization of co-current two-phase flows in upward ­vertical pipe flows with an orifice. For the experiments ultrafast X-ray tomography is applied as imaging technique.
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Foto: Stratified flows - reference picture ©Copyright: Matthias Beyer

Stratified two-phase flows

The investigation of tratified two-phase flows is ­very important for the evaluation of the mass- and energy transfer in technical devices and units. For instance the size of the interfacial area influences the reaction rate in chemical reactors considerably.
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Foto: critical heat flux - reference picture ©Copyright: Thomas Geißler

Core thermal hydraulics, wall boiling and critical heat flux

Together with the other project partners the transient process from nucleate boiling to film boiling is studied both by means of experimental and numerical tools. Numerical method development includes the modelling of the development of gas fraction, bubble size and distribution and heat transfer in the Euler-Euler two-phase framework near or at CHF.
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Foto: Deposition and resuspension of nuclear aerosol particles in turbulent flows - reference picture ©Copyright: Dr. Gregory Lecrivain

Deposition and resuspension of nuclear aerosol particles in turbulent flows

The transport, deposition and resuspension behaviour of carbonaceous dust in the primary circuit of a High Temperature Reactors (HTR) is a fundamental safety issue for the development and safety assessment of such a reactor.
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Contact

Prof. Dr. Uwe Hampel
Head
u.hampel@hzdr.de
Phone: +49 351 260 - 2772
Fax: 12772, 2383