Exposing Spatio-Temporal structures of turbulence in the Atmospheric Boundary Layer with In-Situ measurements by a fleet of Unmanned Aerial Systems

HORIZON.1.1HORIZON-ERCID: 101040823
EC Contribution
€14,792
Consortium Size
1 orgs
Summary

Exchange and transport processes in the atmospheric boundary layer (ABL) are driven by turbulence on a wide range of scales. Their adequate parameterization in numerical weather prediction (NWP) models is essential for a high predictive skill of forecasts. In heterogenous and complex terrain, the common simplification of turbulence to statistical models does not necessarily hold. Coherent structures such as convective cells, secondary circulations, gusts, slope and valley flows can be summarized to sub-mesoscale structures which are not well represented in models. A reason for the lack of understanding of these flow features is the challenge to adequately sample their spatio-temporal structure and their contribution to the energy budget of the ABL. The project ESTABLIS-UAS will provide methods to expose spatio-temporal structures in the ABL with in-situ measurements by a fleet of unmanned aerial systems (UAS). For this purpose, small, rotary-wing UAS will be enabled to measure three-dimensional wind, temperature and humidity in organized, spatially distributed networks. The project will include a three-fold approach to validate single UAS measurements, fleet observations and methods to derive spatial averages and fluxes. Wind tunnel tests, field experiments and virtual measurements in numerical simulations will be performed.The validated UAS fleet will be deployed in two campaigns in the framework of the TEAMx research programme, focusing on the mountain boundary layer (MoBL). The ESTABLIS-UAS measurements will fill observational gaps in the sub-mesoscale. The analysis of the UAS fleet data in synthesis with ground observations and remote sensing will provide unprecedented new insights into the complex MoBL flow and the components of its energy budget. The results will foster the development of new and better parameterization of the ABL in complex terrain.

Consortium (1)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (8)
Towards sensible heat flux measurements with fast-response fine-wire platinum resistance thermometers on small multicopter uncrewed aerial systems
Atmospheric Measurement Techniques· 2025DOI
Wildmann, Norman; Györy, Laszlo
An evaluation of different measurement strategies to measure wind turbine near wake flow with small multicopter UAS
Journal of Physics: Conference Series· 2024DOI
Wildmann, Norman; Kistner, Johannes
Atmospheric boundary layer structure at the head of a small Alpine tributary valley detected with uncrewed aerial systems (UAS) / by Almut Alexa
No journal title· 2024
Almut Alexa
High-resolution wind speed measurements with quadcopter uncrewed aerial systems: calibration and verification in a wind tunnel with an active grid
Atmospheric Measurement Techniques· 2024DOI
J. Kistner; L. Neuhaus; L. Neuhaus; N. Wildmann
Meteorologische Zeitschrift
Meteorologische Zeitschrift· 2024DOI
Pfister, Lena; Gohm, Alexander; Kossmann, Meinolf; Wieser, Andreas; Babi, Nevio; Handwerker, Jan; Wildmann, Norman; Vogelmann, Hannes; Baumann-Stanzer, Kathrin; Alexa, Almut; Lapo, Karl; Paunovi, Ivan; Leinweber, Ronny; Sedlmeier, Katrin; Lehner, Manuela; Hieden, Alexander; Speidel, Johannes; Federer, Maria; Rotach, Mathias W.
Simulation of Spatially Distributed Turbulence Measurements with UAV in Three-dimensional LES Windfields
No journal title· 2024
Bence Toth
Multi-point in situ measurements of turbulent flow in a wind turbine wake and inflow with a fleet of uncrewed aerial systems
Wind Energy Science· 2023DOI
Wetz, Tamino; Wildmann, Norman
Analyses of Spatial Correlation and Coherence in ABL flow with a Fleet of UAS
Boundary-Layer Meteorology· 2022DOI
Wetz, Tamino; Zink, Josef; Bange, Jens; Wildmann, Norman
Deliverables (1)
Documents, reports