Expertise
Contact person, expertise
Publications
- The influence of thermal diffusion on water migration through a porous insulation material Read publication
- Thermodynamically consistent modeling of gas flow and adsorption in porous media Read publication
- Nanoparticle Dynamics in Composite Hydrogels Exposed to Low-Frequency Focused Ultrasound Read publication
- A volume-averaged model for acoustic streaming induced by focused ultrasound in soft porous media Read publication
- A combined fluid-dynamic and thermodynamic model to predict the onset of rapid phase transitions in LNG spills Read publication
- Thermodynamic Stability of Volatile Droplets and Thin Films Governed by Disjoining Pressure in Open and Closed Containers Read publication
- Thermodynamic stability of droplets, bubbles and thick films in open and closed pores
- Computation of three-dimensional three-phase flow of carbon dioxide using a high-order WENO scheme Read publication
- Thermodynamic modeling with equations of state: present challenges with established methods Read publication
- The spinodal of single- and multi-component fluids and its role in the development of modern equations of state Read publication
Other
- A volume-averaged model for acoustic streaming induced by focused ultrasound in soft porous media
- Hydrogel modelling the extracellular matrix for investigating the effect of acoustic radiation force on nanoparticle transport
- LH2 Pioneer web seminar: Presentation of annual working plan 2022 for WP1
- What can Irreversible Thermodynamics do for us?
- Thermodynamic description of thin water films and mitigation of corrosion under insulation – what is the adsorbed phase?
- A combined fluid-dynamic and thermodynamic model to predict the onset of rapid phase transition in LNG spills
- An interface-tracked dynamic network simulator for two-phase flow in porous media
- Using the Spinodal of Single- and Multi-Component Fluids in the Development and Evaluation of Modern Equations of State
- Accurate calculation of gas-liquid-solid flow of CO2 using a WENO method
- New method enabling the ‘direct numerical simulation’ of three-phase flow of carbon dioxide