Computational Fluid Dynamics
The activities of the CFD department focus on:
- The CFD-model development and validation for multiphase flows
- for medium and large scale industrial applications
- basing on the multi-fluid approach.
- Dedicated experiments as well as DNS / LES aiming on the development and validations of closure models.
AIAD, air conditioning, baseline models, boiling, breakup, bubble-induced turbulence, chemical reaction, coalescence, condensation, conference, critical heat flux, density driven flows, evaporation, experiments, flashing, flotation, flows in fuel elements, fuel element storage pools, GENTOP, iClass, iMUSIG, Junior Research Group, liquid metal bubbly flows, manifolds, OpenFOAM, OpenFOAM Hybrid, OpenFOAM_RCS, phase transfer, poly-disperse bubbly flows, population balance modelling, rotational flows, short course, three phase flows, transport of isolation materials, vertical pipe flows, wall boiling
Motivation and Strategy
The qualification of multiphase CFD-models in frame of the multi-fluid approach requires some consolidation. For the extension of the applicability new concepts are established.
Baseline-Modell für polydisperse Blasenströmungen – iMUSIG
One focus of the ongoing activities is the further development of the baseline model for poly-disperse bubbly flows. The inhomogeneous MUSIG model (iMUSIG) provides a suitable modelling framework while the closure models including all parameters are well defined.
Baseline model for separated flows – AIAD
Separated flows, i.e. flow with large gas-liquid-interfaces occur frequently in horizontal flow domains (stratification), but are also observed in other configurations as e.g. annular flow in vertical pipes.
GENeralized TwO-Phase flow concept – GENTOP
In many gas-liquid flows with relevance for applications different morphologies of the interfacial structure (disperse or segregated) occur in parallel and transitions between these morphologies have to be considered. The innovative GENTOP-concept is a good basis for the simulation of such flows.
Modelling of Multiphase Flows with OpenFOAM
Within this project the main developments for the numerical simulation of multiphase flows at Helmholtz-Zentrum Dresden-Rossendorf are transferred to the C++ library OpenFOAM. The complete access to the source code, in contrast to commercial CFD software, give rise to much more possibilities concerning the development of new physical models and simulation methods.
Applications and projects
Our activities aim on the qualification of multiphase CFD-methods as a tool for the optimization of industrial apparatuses and processes as well for safety analyses. Some examples for applications and projects are given here.
Junior Research Group "Advanced modelling of multiphase flows"
The Junior Research Group ist founded by the Helmholtz European Partnering Programm and is a cooperation between Helmholtz-Zentrum Dresden - Rossendorf and Jožef Stefan Institute in Slovenia. The topic is modelling and numerical simulation of complex multiphase flows, e.g. water hammers.