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New Setup of the UAS ALADINA for Measuring Boundary Layer Properties, Atmospheric Particles and Solar Radiation

Affiliation/Institute
Institute of Flight Guidance
Bärfuss, Konrad;
Affiliation/Institute
Institute of Flight Guidance
Pätzold, Falk;
Affiliation/Institute
Institute of Flight Guidance
Altstädter, Barbara;
Affiliation/Institute
Institute of Flight Guidance
Kathe, Endres;
Affiliation/Institute
Institute of Flight Guidance
Nowak, Stefan;
Affiliation/Institute
Institute of Flight Guidance
Bretschneider, Lutz;
ORCID
0000-0003-4532-5274
Affiliation/Institute
Institute of Flight Guidance
Bestmann, Ulf;
Affiliation/Institute
Institute of Flight Guidance
Lampert, Astrid

The unmanned research aircraft ALADINA (Application of Light-weight Aircraft for Detecting in situ Aerosols) has been established as an important tool for boundary layer research. For simplified integration of additional sensor payload, a flexible and reliable data acquisition system was developed at the Institute of Flight Guidance, Technische Universität (TU) Braunschweig. The instrumentation consists of sensors for temperature, humidity, three-dimensional wind vector, position, black carbon, irradiance and atmospheric particles in the diameter range of ultra-fine particles up to the accumulation mode. The modular concept allows for straightforward integration and exchange of sensors. So far, more than 200 measurement flights have been performed with the robustly-engineered system ALADINA at different locations. The obtained datasets are unique in the field of atmospheric boundary layer research. In this study, a new data processing method for deriving parameters with fast resolution and to provide reliable accuracies is presented. Based on tests in the field and in the laboratory, the limitations and verifiability of integrated sensors are discussed.

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