During nighttime clear-sky conditions and in the absence of significant advection the influence of divergence of net longwave radiative flux on thermodynamic processes could be dominant in the atmospheric boundary layer. The model which parameterizes such processes by height (35 grid points up to 2000 m) is accomplished based on the emissivity concept. The test of the model is performed on the Wangara experiment data. The results are analyzed and discussed concerning a complex structure of the total cooling rate, especially in the lower part of the nocturnal boundary layer (region of smaller wind speeds)
We introduce a simple, physically consistent method to predict nocturnal wind and temperature profil...
A simple analytical model of the atmospheric boundary layer (ABL) coupled to sea ice is presented. I...
Downward atmospheric longwave radiation (DLR) is an important component of the terrestrial energy bu...
It is shown that the process of the air-cooling is dominated by the divergence of the longwave radia...
In this thesis the transfer of infrared radiation (electromagnetic waves with a wavelength between 3...
In this thesis the transfer of infrared radiation (electromagnetic waves with a wavelength between 3...
This paper presents the results of 5 months of in situ observations of the diurnal cycle of longwave...
This study examines the characteristics of longwave radiation in the nocturnal lower boundary layer ...
A detailed model for longwave radiative transfer in general cloudy atmospheres has been developed an...
A unique set of nocturnal longwave radiative and sensible heat flux divergences was obtained during ...
The paper presents a review of some models to calculate the intensity of the atmospheric longwave ra...
Submitted bachelor thesis discusses the issue of the atmospheric boundary layer. First of all, it ad...
Graduation date: 1991One method of estimating the longwave radiative heating of the atmosphere is to...
The main objective of this thesis is to contribute to further understanding of the stable boundary l...
High frequency resolution radiative transfer model calculations with the Atmospheric Radiative Trans...
We introduce a simple, physically consistent method to predict nocturnal wind and temperature profil...
A simple analytical model of the atmospheric boundary layer (ABL) coupled to sea ice is presented. I...
Downward atmospheric longwave radiation (DLR) is an important component of the terrestrial energy bu...
It is shown that the process of the air-cooling is dominated by the divergence of the longwave radia...
In this thesis the transfer of infrared radiation (electromagnetic waves with a wavelength between 3...
In this thesis the transfer of infrared radiation (electromagnetic waves with a wavelength between 3...
This paper presents the results of 5 months of in situ observations of the diurnal cycle of longwave...
This study examines the characteristics of longwave radiation in the nocturnal lower boundary layer ...
A detailed model for longwave radiative transfer in general cloudy atmospheres has been developed an...
A unique set of nocturnal longwave radiative and sensible heat flux divergences was obtained during ...
The paper presents a review of some models to calculate the intensity of the atmospheric longwave ra...
Submitted bachelor thesis discusses the issue of the atmospheric boundary layer. First of all, it ad...
Graduation date: 1991One method of estimating the longwave radiative heating of the atmosphere is to...
The main objective of this thesis is to contribute to further understanding of the stable boundary l...
High frequency resolution radiative transfer model calculations with the Atmospheric Radiative Trans...
We introduce a simple, physically consistent method to predict nocturnal wind and temperature profil...
A simple analytical model of the atmospheric boundary layer (ABL) coupled to sea ice is presented. I...
Downward atmospheric longwave radiation (DLR) is an important component of the terrestrial energy bu...