TY - JOUR
T1 - Evaluation of on-site calibration procedures for SKYNET Prede POM sun-sky photometers
AU - Campanelli, Monica
AU - Estellés, Victor
AU - Kumar, Gaurav
AU - Nakajima, Teruyuki
AU - Momoi, Masahiro
AU - Gröbner, Julian
AU - Kazadzis, Stelios
AU - Kouremeti, Natalia
AU - Karanikolas, Angelos
AU - Barreto, Africa
AU - Nevas, Saulius
AU - Schwind, Kerstin
AU - Schneider, Philipp
AU - Harju, Iiro
AU - Kärhä, Petri
AU - Diémoz, Henri
AU - Kudo, Rei
AU - Uchiyama, Akihiro
AU - Yamazaki, Akihiro
AU - Iannarelli, Anna Maria
AU - Mevi, Gabriele
AU - Di Bernardino, Annalisa
AU - Casadio, Stefano
N1 - Publisher Copyright:
© 2024 Monica Campanelli et al.
PY - 2024/9/3
Y1 - 2024/9/3
N2 - To retrieve columnar intensive aerosol properties from sun-sky photometers, both irradiance and radiance calibration factors are needed. For the irradiance the solar calibration constant, V0, which denotes the instrument counts for a direct normal solar flux extrapolated to the top of the atmosphere, must be determined. The solid view angle, SVA, is a measure of the field of view of the instrument, and it is important for obtaining the radiance from sky diffuse irradiance measurements. Each of the three sun-photometer networks considered in the present study (SKYNET, AERONET, WMO GAW) adopts different protocols of calibration, and we evaluate the performance of the on-site calibration procedures, applicable to every kind of sun-sky photometer but tested in this analysis only on SKYNET Prede POM01 instruments, during intercomparison campaigns and laboratory calibrations held in the framework of the Metrology for Aerosol Optical Properties (MAPP) European Metrology Programme for Innovation and Research (EMPIR) project. The on-site calibration, performed as frequently as possible (ideally monthly) to monitor changes in the device conditions, allows operators to track and evaluate the calibration status on a continuous basis, considerably reducing the data gaps incurred by the periodic shipments for performing centralized calibrations. The performance of the on-site calibration procedures for V0 was very good at sites with low turbidity, showing agreement with a reference calibration between 0.5 % and 1.5 % depending on wavelengths. In the urban area, the agreement decreases between 1.7 % and 2.5 %. For the SVA the difference varied from a minimum of 0.03 % to a maximum of 3.46 %.
AB - To retrieve columnar intensive aerosol properties from sun-sky photometers, both irradiance and radiance calibration factors are needed. For the irradiance the solar calibration constant, V0, which denotes the instrument counts for a direct normal solar flux extrapolated to the top of the atmosphere, must be determined. The solid view angle, SVA, is a measure of the field of view of the instrument, and it is important for obtaining the radiance from sky diffuse irradiance measurements. Each of the three sun-photometer networks considered in the present study (SKYNET, AERONET, WMO GAW) adopts different protocols of calibration, and we evaluate the performance of the on-site calibration procedures, applicable to every kind of sun-sky photometer but tested in this analysis only on SKYNET Prede POM01 instruments, during intercomparison campaigns and laboratory calibrations held in the framework of the Metrology for Aerosol Optical Properties (MAPP) European Metrology Programme for Innovation and Research (EMPIR) project. The on-site calibration, performed as frequently as possible (ideally monthly) to monitor changes in the device conditions, allows operators to track and evaluate the calibration status on a continuous basis, considerably reducing the data gaps incurred by the periodic shipments for performing centralized calibrations. The performance of the on-site calibration procedures for V0 was very good at sites with low turbidity, showing agreement with a reference calibration between 0.5 % and 1.5 % depending on wavelengths. In the urban area, the agreement decreases between 1.7 % and 2.5 %. For the SVA the difference varied from a minimum of 0.03 % to a maximum of 3.46 %.
UR - http://www.scopus.com/inward/record.url?scp=85203177719&partnerID=8YFLogxK
U2 - 10.5194/amt-17-5029-2024
DO - 10.5194/amt-17-5029-2024
M3 - Article
AN - SCOPUS:85203177719
SN - 1867-1381
VL - 17
SP - 5029
EP - 5050
JO - Atmospheric Measurement Techniques
JF - Atmospheric Measurement Techniques
IS - 17
ER -