PN 1: Project Overview

PN 1-1 Data-Driven Subgrid-Closure Models for Simulating Turbulent Multi-Phase Flow
PN 1-1 (II) Data-driven closures for turbulent free and porous media flows
PN 1-2A A Multiscale Framework for Multiphase Flow Based on the Compressible Navier-Stokes Kortweg System
PN 1-2B 3D Direct Numerical Simulation of Multi-Component Droplet Interaction Including Phase Change as a Basis for Sub-Scale Models for Data-Integrated Multiphase Simulations
PN 1-2 (II) 3D Direct Numerical Simulation of Multi-Component Droplet Interaction including Phase Change as a Basis for Sub-Scale Models for Data-Integrated Multiphase Simulations
PN 1-3 Impact of Porous-Media Topology on Turbulent Fluid Flow: Highly Resolved Space and Time Interactions
PN 1-3 (II) Influence of Anisotropy and Permeability on Turbulent Pumping by Highly Space and Time-resolved Measurements
PN 1-4 Image-based Morphological Characterization of Multiphase Porous Media Flow
PN 1-4 (II) Image-based morphological characterization of multiphase porous media flow
PN 1-5 Dispersion Concept for Interface Closures in the Context of Coupling Free-Flow and Porous-Media Multiphase Flow on the REV Scale
PN 1-5 (II) Dispersion concept for interface closures in the context of coupling free-flow and porous-media multiphase flow on the REV scale
PN 1-6 Upscaling of Two-Phase Porous Media Flow Based on Fluid Morphology
PN 1-7 Datadriven Simulations for Turbulence Inside Porous Media
PN 1-8 Bottom-up modeling of hierarchical porous electrode materials via molecular simulation
PN 1-9 Data-Integrated Two-Scale Modelling of Compressible Multiphase Flow
PN 1-10 Combining imaging, physics and analysis for rheological experiments 
PN 1-11 Integration of thermodynamic library data into OpenFOAM for the simulation of compressible multiphase flows with phase change
PN 1-12 Printing personalised medicines on demand: PrintMed Plus

Andrea Beck

Prof. Dr.-Ing.
This image shows Holger Steeb

Holger Steeb

Prof. Dr.-Ing.

Continuum Mechanics | Director of SC SimTech

[Photo: SimTech/Max Kovalenko]

Bernhard Weigand

Prof. Dr.-Ing. habil.

Aerospace Thermodynamics

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