The cloud-top mixing layer is an idealized configuration often employed in the literature to study local aspects (over length scales of the order of 10 m) of the top of stratocumulus-topped mixed layers. Latent heat effects are further investigated here by means of direct numerical simulations, discussing the probability density functions of the horizontal and vertical velocities, as well as the mixture fraction (equal to a normalized enthalpy and total water-specific humidity). The focus is on the turbulent convection layer that develops from the buoyancy reversal instability as a consequence of the evaporative cooling at the upper cloud boundary. An approximately self-similar behavior is found, where the convection scales based on the mol...
The normalized distributions of thermodynamic and dynamical variables both within and outside shallo...
High-resolution measurements of thermodynamic, microphysical, and turbulence properties inside a tur...
We compare turbulence properties in coupled and decoupled marine stratocumulus-topped boundary layer...
The cloud-top mixing layer is an idealized configuration often employed in the literature to study l...
Direct numerical simulations of the turbulent temporally evolving cloud-top mixing layer are used t...
A theoretical and numerical small-scale study of the evaporative cooling phenomenon that might appea...
A theoretical and numerical small-scale study of the evaporative cooling phenomenon that might appea...
A numerical experiment is designed to study the interaction at the stratocumulus top between a mean ...
The stratocumulus-top mixing process is investigated using direct numerical simulations of a shear-f...
A radiatively driven cloud-top mixing layer is investigated using direct numerical simulations. This...
Recent work suggests that shallow cumulus convection is the major point of departure among climate-m...
Large-eddy simulation (LES) has been extensively used as a tool to understand how various processes ...
A radiatively driven cloud-top mixing layer is investigated using direct numerical simulations. This...
Results from theoretical and numerical studies of the cloud-top mixing layer with buoyancy reversal ...
It has been recognized during the last decades that cloud effects remain one of the largest sources ...
The normalized distributions of thermodynamic and dynamical variables both within and outside shallo...
High-resolution measurements of thermodynamic, microphysical, and turbulence properties inside a tur...
We compare turbulence properties in coupled and decoupled marine stratocumulus-topped boundary layer...
The cloud-top mixing layer is an idealized configuration often employed in the literature to study l...
Direct numerical simulations of the turbulent temporally evolving cloud-top mixing layer are used t...
A theoretical and numerical small-scale study of the evaporative cooling phenomenon that might appea...
A theoretical and numerical small-scale study of the evaporative cooling phenomenon that might appea...
A numerical experiment is designed to study the interaction at the stratocumulus top between a mean ...
The stratocumulus-top mixing process is investigated using direct numerical simulations of a shear-f...
A radiatively driven cloud-top mixing layer is investigated using direct numerical simulations. This...
Recent work suggests that shallow cumulus convection is the major point of departure among climate-m...
Large-eddy simulation (LES) has been extensively used as a tool to understand how various processes ...
A radiatively driven cloud-top mixing layer is investigated using direct numerical simulations. This...
Results from theoretical and numerical studies of the cloud-top mixing layer with buoyancy reversal ...
It has been recognized during the last decades that cloud effects remain one of the largest sources ...
The normalized distributions of thermodynamic and dynamical variables both within and outside shallo...
High-resolution measurements of thermodynamic, microphysical, and turbulence properties inside a tur...
We compare turbulence properties in coupled and decoupled marine stratocumulus-topped boundary layer...