Add to ORKGThe dynamics and lifetime of atmospheric clouds are tightly coupled to entrainment and turbulent mixing. This paper presents direct numerical simulations of turbulent mixing followed by droplet evaporation at the cloud‐clear air interface in a meter‐sized volume, with an ensemble of up to almost half a billion individual cloud water droplets. The dependence of the mixing process on domain size reveals that inhomogeneous mixing becomes increasingly important as the domain size is increased. The shape of the droplet size distribution varies strongly with spatial scale, with the appearance of a pronounced negative exponential tail. The increase of relative dispersion during the transient mixing process is strongly dependent on the scale of the...
Cloud droplet response to entrainment and mixing between a cloud and its environment is considered, ...
Much effort has recently gone into explaining the observed broad precoalescence size distribution of...
Microphysical processes are important for the development of clouds and thus Earth\u27s climate. For...
The entrainment of clear air and its subsequent mixing with a filament of cloudy air, as occurs at t...
Turbulent mixing and entrainment at the boundary of a cloud is studied by means of direct numerical ...
Turbulent mixing of dry air affects the evolution of the cloud droplet size spectrum via various mec...
© 2017 Cambridge University Press. Three-dimensional direct numerical simulations of a shearless mix...
Extreme responses of a droplet ensemble during an entrainment and mixing process as present at the e...
Atmospheric clouds are well known for their impact on the evolution of global or local climate, but ...
The effect of aerosols on the properties of clouds is a large source of uncertainty in predictions o...
AbstractWe study condensational growth of droplets in the presence of turbulent mixing, which is rel...
This paper extends the previously published numerical study of Andrejczuk et al. on microscale cloud...
The formation and life-span of clouds as well as the associated unsteady processes concerning the mi...
The number concentration of activated CCN (<i>N</i><sub>a</sub>) is the most...
The application of statistical turbulence theory to the study of atmospheric clouds has a long hist...
Cloud droplet response to entrainment and mixing between a cloud and its environment is considered, ...
Much effort has recently gone into explaining the observed broad precoalescence size distribution of...
Microphysical processes are important for the development of clouds and thus Earth\u27s climate. For...
The entrainment of clear air and its subsequent mixing with a filament of cloudy air, as occurs at t...
Turbulent mixing and entrainment at the boundary of a cloud is studied by means of direct numerical ...
Turbulent mixing of dry air affects the evolution of the cloud droplet size spectrum via various mec...
© 2017 Cambridge University Press. Three-dimensional direct numerical simulations of a shearless mix...
Extreme responses of a droplet ensemble during an entrainment and mixing process as present at the e...
Atmospheric clouds are well known for their impact on the evolution of global or local climate, but ...
The effect of aerosols on the properties of clouds is a large source of uncertainty in predictions o...
AbstractWe study condensational growth of droplets in the presence of turbulent mixing, which is rel...
This paper extends the previously published numerical study of Andrejczuk et al. on microscale cloud...
The formation and life-span of clouds as well as the associated unsteady processes concerning the mi...
The number concentration of activated CCN (<i>N</i><sub>a</sub>) is the most...
The application of statistical turbulence theory to the study of atmospheric clouds has a long hist...
Cloud droplet response to entrainment and mixing between a cloud and its environment is considered, ...
Much effort has recently gone into explaining the observed broad precoalescence size distribution of...
Microphysical processes are important for the development of clouds and thus Earth\u27s climate. For...