I work with atmospheric modeling, combining knowledge and methods from physics, mathematics, chemistry, environmental science, and computer science. I hold an MSc in Physics, specialized in numerical astrophysics, from the University of Copenhagen, and a PhD in atmospheric physics and modeling from Aarhus University.

My main research focus is local-scale air pollution modeling, where I apply, among other approaches, the model DALM (the DAnish Lagrangian Model) – a Lagrangian particle dispersion model that incorporates simplified chemistry and dry and wet deposition, and is suitable for long-term simulations. Additionally, I work on birch pollen transport and ultrafine particles, and have contributed to projects assessing air pollution exposure and related health impacts.

I have contributed to several research-based advisory projects for public institutions in Denmark. In these projects, I have, among other tasks, analyzed large datasets to estimate the effects of environmental zones, evaluated air pollution forecasts, and mapped air pollution.