Projects Overview

Projects Overview

Condensation of Water on Superamphiphobic Surfaces Molecular Modelling of Complex Liquids at the Three-phase Contact Line Amplification of the Electroosmotic Flow on Superhydrophobic Surfaces Research Area B - Modelling and Numerical Simulation Flow Velocity Profile near a Moving Three-phase Contact Line Wetting and Transport on Swellable, Immobilized Polymer Brushes and Polymer Networks Modelling and VOF based Simulation of the Multiphysics of Irreversible Thermodynamic Transfer Processes at Dynamic Contact Lines. Forced Wetting with Hydrodynamic Assist on Gravure Print Cylinders Experimental Investigation of Coalescence and Breakup of Droplets on Solid Surfaces – Generic Configuration Sessile Drop Higher Order Schemes for Direct Numerical Simulation for Wetting and De-Wetting Problems based on Discontinuous Galerkin Methods Direct Numerical Simulation of Locally Coupled Interface Processes at Dynamic Contact Lines Raman Spectroscopy for Investigating Mass Transport and Concentration Gradients in Mixtures High Resolution NMR for Investigating Fluid Behavior on Solid Surfaces Investigation of Fast De-wetting from Substrates with Complex Surface Morphologies Multi-scale Investigations of Boiling of Complex Fluids on Complex Surfaces Research Area A - Generic Experiments Forced Wetting and De-Wetting on Complex Surfaces – Generic Configuration Immersed Body Flow and Evaporation of Pure Liquids and (Nano)-Suspensions from Structured Coatings Controlled Dynamic Wetting and the Influence of Ionic Mass Transport in Mesoporous Films Research Area C - New and improved Applications Simulation based Optimization and Optimal Design of Experiments for Wetting Phenomena