Add to ORKGcooperative undertaking to study turbulent transport and diffusion in urban atmospheric boundary layers
Multiple Doppler Lidars have been co-operated in the NYC region during the summer of 2018 to provide...
Understanding the relationship between turbulent flow characteristics and surface geometry is very i...
The structure of the atmospheric boundary layer in urban areas is of particular interest for air pol...
A Doppler lidar has been developed using fiber optic based technologies and advanced signal processi...
Analysis of radial wind velocity data from the Salford pulsed Doppler infrared lidar is used to calc...
The structure of the urban boundary layer depends, in part, on the surface roughness. The nature and...
Turbulent exchange in the lower part of the atmospheric boundary layer drives the exchange of heat, ...
A compact commercial Doppler lidar has been deployed in Indianapolis for two years to measure wind p...
In July 2004 a field trial was undertaken to simultaneously deploy two similar Doppler lidar systems...
Entrainment into the atmospheric boundary layer: lidar observations and LES simulation
Dispersion of pollutants in the urban atmosphere is a subject that is presently under much investiga...
Urban boundary layers (UBLs) can be highly complex due to the heterogeneous roughness and heating of...
Urban areas change profoundly the transport and mixing properties of the airflow, which has importan...
study of urban dispersion conducted in Oklahoma City during the summer of 2003. The experiment invol...
With a rapidly increasing urban population, air pollution is a growing problem. To minimise the impa...
Multiple Doppler Lidars have been co-operated in the NYC region during the summer of 2018 to provide...
Understanding the relationship between turbulent flow characteristics and surface geometry is very i...
The structure of the atmospheric boundary layer in urban areas is of particular interest for air pol...
A Doppler lidar has been developed using fiber optic based technologies and advanced signal processi...
Analysis of radial wind velocity data from the Salford pulsed Doppler infrared lidar is used to calc...
The structure of the urban boundary layer depends, in part, on the surface roughness. The nature and...
Turbulent exchange in the lower part of the atmospheric boundary layer drives the exchange of heat, ...
A compact commercial Doppler lidar has been deployed in Indianapolis for two years to measure wind p...
In July 2004 a field trial was undertaken to simultaneously deploy two similar Doppler lidar systems...
Entrainment into the atmospheric boundary layer: lidar observations and LES simulation
Dispersion of pollutants in the urban atmosphere is a subject that is presently under much investiga...
Urban boundary layers (UBLs) can be highly complex due to the heterogeneous roughness and heating of...
Urban areas change profoundly the transport and mixing properties of the airflow, which has importan...
study of urban dispersion conducted in Oklahoma City during the summer of 2003. The experiment invol...
With a rapidly increasing urban population, air pollution is a growing problem. To minimise the impa...
Multiple Doppler Lidars have been co-operated in the NYC region during the summer of 2018 to provide...
Understanding the relationship between turbulent flow characteristics and surface geometry is very i...
The structure of the atmospheric boundary layer in urban areas is of particular interest for air pol...