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Marco de Bruine

Modeling aerosol-cloud interaction

Cloud formation depends on the characteristics of the available aerosols, e.g. size distribution, number concentration and hygroscopicity. On the other hand, below and in-cloud scavenging by cloud and rain droplets also influence the aerosol population. A good understanding and representation of aerosol-cloud interaction in models is crucial for climate predictions. As these interactions take place on the microphysics level, research relies heavily on parameterization of these sub-grid processes. In my research I use the chemistry transport model TM5 stand-alone or coupled to the dynamical core of IFS within the Earth system model EC-EARTH.

Curriculum vitae

2014-current	PhD Aerosol-cloud interaction - Utrecht University.
2012-2014	MSc Meteorology, Physical Oceanography and Climate (cum laude) – Utrecht University.
	MSc thesis: 'Applying graph theory for a more consistent estimate of the boundary layer height'
2010-2012	BSc Physics – Utrecht University
2007-2009	BSc Business Administration – Erasmus University Rotterdam