Add to ORKGIn the lowermost part of the atmosphere, the boundary layer, the amount of aerosols is high. Aerosols interact with incoming irradiation from the sun. This interaction is called extinction, which means scattering and absorption. Due to that interaction light loses a part of the intensity when it passes a certain distance in the atmosphere. The amount of lost intensity depends on the aerosol distribution. In a solar power plant light that is coming from the sun is reflected by a field of heliostats (flat mirrors) and concentrated on a receiver, which is situated on a tower. This happens in the lowermost part (about 100 m or even up to 250 m) of the atmosphere. The amount of aerosols is high and therefore it has to be found out if extincti...
Solar radiation reflected by concentrating mirrors is attenuated due to atmospheric extinction as it...
Losses of the reflected direct normal irradiance (DNI) between the heliostat field and receiver in a...
Aerosols play an important role in many atmospheric processes but their highly heterogeneous nature ...
The energy demand that accompanies the economic stability of the industrialized countries is steadil...
A lidar for aerosol monitoring with conventional optical design can provide good quality signals fro...
A lidar for aerosol monitoring with conventional optical design can provide good quality signals fro...
It is used here the lidar equation describing signals from a weakly turbid atmosphere to solve the p...
Vertical profiles of aerosol particle optical properties were explored in a case study near the San ...
Backscattered power data from the Doppler LIght Detection And Ranging (LIDAR) systems at the Hong Ko...
Losses of reflected Direct Normal Irradiance due to atmospheric extinction in concentrated solar tow...
A new method, called ElEx (elastic extinction), is proposed for the estimation of extinction coeffic...
Functional relationships linking at λ0=351 nm aerosol extinction αλ0aer and backscatter coefficient ...
Lidars are ideally placed to investigate the effects of aerosol and cloud on the climate system due ...
Solar radiation reflected by concentrating mirrors is attenuated due to atmospheric extinction as it...
We derive aerosol extinction profiles from airborne and space-based lidar backscatter signals by con...
Solar radiation reflected by concentrating mirrors is attenuated due to atmospheric extinction as it...
Losses of the reflected direct normal irradiance (DNI) between the heliostat field and receiver in a...
Aerosols play an important role in many atmospheric processes but their highly heterogeneous nature ...
The energy demand that accompanies the economic stability of the industrialized countries is steadil...
A lidar for aerosol monitoring with conventional optical design can provide good quality signals fro...
A lidar for aerosol monitoring with conventional optical design can provide good quality signals fro...
It is used here the lidar equation describing signals from a weakly turbid atmosphere to solve the p...
Vertical profiles of aerosol particle optical properties were explored in a case study near the San ...
Backscattered power data from the Doppler LIght Detection And Ranging (LIDAR) systems at the Hong Ko...
Losses of reflected Direct Normal Irradiance due to atmospheric extinction in concentrated solar tow...
A new method, called ElEx (elastic extinction), is proposed for the estimation of extinction coeffic...
Functional relationships linking at λ0=351 nm aerosol extinction αλ0aer and backscatter coefficient ...
Lidars are ideally placed to investigate the effects of aerosol and cloud on the climate system due ...
Solar radiation reflected by concentrating mirrors is attenuated due to atmospheric extinction as it...
We derive aerosol extinction profiles from airborne and space-based lidar backscatter signals by con...
Solar radiation reflected by concentrating mirrors is attenuated due to atmospheric extinction as it...
Losses of the reflected direct normal irradiance (DNI) between the heliostat field and receiver in a...
Aerosols play an important role in many atmospheric processes but their highly heterogeneous nature ...