| Title: |
LOAC2: The Improved Version of the Light Optical Aerosols Counter for Measurements at Ground Level and Within the Atmosphere Under Balloons. |
| Authors: |
Renard, Jean-Baptiste; Berthet, Gwenaël; Jeannot, Matthieu; Jacquet, Patrick; Langerome, Benjamin; Lecas, Thomas; Chevrier, Stéphane; Briaud, Emmanuel; Chalumeau, Gilles; Grenard, Florent; Charpentier, Benjamin; Gaulin, Maylis; Bekki, Slimane; Giacomoni, Jérôme |
| Source: |
Sensors (14248220); Jun2026, Vol. 26 Issue 12, p3786, 23p |
| Abstract: |
Highlights: What are the main findings? LOAC2 light aerosols counter. Counting and typology of atmospheric particles between 0.15 µm and 90 µm, for up to 30 size classes. What are the implications of the main findings? Good agreement with other instruments. Can be used at ground level for monitoring and field campaigns, and on all kinds of balloons, including weather balloons, up to an altitude of 35 km. The new LOAC2 optical aerosol counter is designed to detect liquid and solid particulates across 19 to 30 size classes within the 0.15–90 µm size range, and to provide their main typology. The instrument can be used at ground level and on all kinds of balloons, including weather balloons, up to an altitude of about 35 km. The measurements are based on principles established for the previous version of LOAC, now incorporating improved electronics and detection geometry. Counting is performed at small scattering angles in the diffraction domain, making it insensitive to the refractive indices and the porosity of the particles, thus allowing a direct relationship between scattered intensity and aerosol size. Typology identification is now performed at three additional scattering angles, where the scattered flux is highly sensitive to the refractive index of the different aerosol families present in the atmosphere. The calibration was conducted using calibrated spherical and irregular grains, as well as different types of solid particles. Several intercomparison sessions with other counters and with reference mass-concentration air quality monitoring stations were carried out indoors, in an atmospheric simulation chamber, and in outdoor ambient air. The agreement between LOAC2 and the other instruments is good, confirming the ability of LOAC2 to be used for scientific studies and for monitoring atmospheric aerosols. [ABSTRACT FROM AUTHOR] |
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| Database: |
Complementary Index |