Lehrstuhl für Hydromechanik und Hydrosystemmodellierung

NUPUS: Teilprojekt "Investigating transfer fluxes induced by turbulent free flow and affected by multiphase processes in porous media"

Gefördert von der Deutschen Forschungsgemeinschaft im Rahmen des Internationalen Graduiertenkollegs (ITRG 1938) "Non-linearities and Upscaling in Porous Media (NUPUS)" vom 01.04.2013 bis zum 31.03.2016

Projektbeschreibung

Flow and transport processes in domains composed of a porous medium and anadjacent free-flow region appear in a wide range of industrial, medical andenvironmental applications. Our focus is on evaporation from unsaturated soilsunder influence of a turbulent free flow. The modeling of such coupled systems is a challenging task especially at the interface of the two domains.
In preliminary work a REV-scale model has been developed, which couples theNavier-Stokes equation for the free flow with the Darcy equation for the porous-medium flow. It is possible to simulate the evaporation processes for non-isothermal, laminar conditions and a multiphase, multicomponent flow. However, there is a discrepancy between the simulated evaporation rates and rates which have been measured in lab experiments. Therefore the model will be extended with RANS turbulence models.
The vision is to develop a model which can reproduce the complex interactionbetween the two domains and predict the exchange fluxes. This is achieved with anumerical stable description for the turbulent free flow and by gaining inside into the complex processes at the interface. Different scenarios willbe analyzed with respect to the required model complexity aiming at a "intelligent interface" description and an improved modeling on the field scale.
Dies ist ein Anschlussprojekt zum Projekt: LH2

Poster

Leiter

Helmig, Rainer

Bearbeiter

Fetzer, Thomas

Abteilung

LH2

Laufzeit

04/2013 - 03/2016

Finanzierung

Internationales Graduiertenkolleg NUPUS

Partner

Colorado School of Mines, Forschungszentrum Jülich, ETH Zürich

Kontakt

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Lehrstuhl für Hydromechanik und Hydrosystem- modellierung

 

Anfahrt

Pfaffenwaldring 61, 70569 Stuttgart

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