Kurzfassungen der Meteorologentagung DACH
DACH2022-209, 2022, updated on 18 Apr 2023
https://doi.org/10.5194/dach2022-209
DACH2022
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Standardized Doppler lidar processing for operational use in a future network

Markus Kayser, Eileen Päschke, Carola Detring, Volker Lehmann, Frank Beyrich, and Ronny Leinweber
Markus Kayser et al.
  • Deutscher Wetterdienst, Meteorologisches Observatorium Lindenberg, ground-based remote sensing, Tauche, Germany (markus.kayser@dwd.de)

Fibre-optic based Doppler wind lidars (DL) are widely used for both meteorological research and in the wind energy sector. These compact systems are able to retrieve vertical profiles of kinematic quantities, such as mean wind, from the atmospheric boundary layer as well as from optically thin cloud layers in the free troposphere with high spatio-temporal resolution. It is therefore likely that especially short-term forecasting would benefit from assimilating these data. However, their potential is currently not yet employed operationally.

As part of DWD's effort to evaluate ground-based remote sensing systems for their operational readiness, called "Pilotstation", we developed a software client (DL-client) that standardizes the processing of mean wind based on the Velocity Azimuth Display method. Results of a long-term assessment of DLs at the Meteorological Observatory Lindenberg, starting in 2012, show that the DL-client assures a high quality Level-2 product, which is compatible with the EUMETNET's E-PROFILE observation program. We verified the retrieved mean wind speed and direction with the help of independent reference data from a 482 MHz radar wind profiler and 6-hourly radiosonde ascents. Hence, the DL-client not only facilitates processing and archiving of the DL data, but also forms a basis for operational network deployment and data assimilation. Furthermore, through speeding up and standardizing the data processing, the individual users can concentrate on more advanced scientific data analyses.

Finally, the software is freely accessible and will be continuously improved to account for different scanning strategies. Its modular build-up of processing steps offers the possibility to extend the list of products with additional retrievals, e.g. for turbulent kinetic energy and wind gusts, which are currently under development at Lindenberg.

How to cite: Kayser, M., Päschke, E., Detring, C., Lehmann, V., Beyrich, F., and Leinweber, R.: Standardized Doppler lidar processing for operational use in a future network, DACH2022, Leipzig, Deutschland, 21–25 Mar 2022, DACH2022-209, https://doi.org/10.5194/dach2022-209, 2022.