Objetivo
Dissolving, eroding, and melting processes are ubiquitous in everyday life, nature, science, and technology. The challenge is to accurately predict the melting or dissolution rate e.g. of an iceberg or glacier---relevant for climate change---or of solid reactants in chemical reactors, important to accurately control reaction rates and temperatures. Current predictions for the melting of glaciers are often off by a factor of 100, and different melting models show inconsistencies. No general consensus of the cryospheric modeling has been reached yet. The difficulties in describing melting and dissolution stem from the multiscale nature of these processes (micrometers to kilometers) and the interaction between thermal, solutal, and viscous boundary layers and their complex interplay with the continuously reshaping boundary. A common belief is that melting always smooths the shape. However, from examples in nature and from theoretical analysis, it is clear that flows around melting or dissolving objects can create a rough (dimpled) surface, dramatically increasing the difficulty of accurate predictions. The objective of the project is to solve the gap in understanding and develop a quantitative understanding of the heat and mass transfer and the resulting melting and dissolution dynamics of fixed surfaces and freely-moving objects in turbulent flows from a fundamental fluid dynamics perspective. To do so, we will perform highly controlled lab experiments and numerical simulations, which allow for a combined experimental, numerical, and theoretical approach to reveal the underlying mechanisms of the melting and dissolution dynamics. Unique experimental flow facilities, the latest 3D optical measurements techniques, and advanced high-performance numerical schemes will allow for a one-to-one comparison between experiments and simulations. Given the societal relevance of climate change and the burning technol
Ámbito científico
Programa(s)
- HORIZON.1.1 - European Research Council (ERC) Main Programme
Régimen de financiación
HORIZON-AG - HORIZON Action Grant Budget-BasedInstitución de acogida
7522 NB Enschede
Países Bajos