Distributed wind measurements with multiple quadrotor unmanned aerial vehicles in the atmospheric boundary layer

Wetz, Tamino; Wildmann, Norman; Beyrich, Frank

doi:10.5194/amt-14-3795-2021

Cited by 24 publications

(26 citation statements)

References 32 publications

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“…At the boundary layer field site (Grenzschichtmessfeld, GM) Falkenberg of the Meteorological Observatory Lindenberg -Richard Aßmann-Observatory (MOL-RAO), two campaigns were carried out associated to the FESST@MOL 2020 and the FESSTVaL 2021 activities at the MOL-RAO. With data from the FESST@MOL 2020 experiment, we compared the spatial distribution of horizontal wind in main wind direction, as obtained from the UAS fleet to tower vertical profiles and DWL scans before [16]. In order to calculate turbulence parameters which are essential to understand loads and wake dynamics of WT, it is desirable to measure with high temporal resolution in all three dimensions.…”

Section: Methodsmentioning

confidence: 99%

“…This feature simplifies and increases the accuracy of the wind algorithm, due to more similar relative inflow of the wind towards the quadrotor, resulting in less variability of the aerodynamic drag. The hardware and software have not changed significantly compared to the 2020 campaign so that we refer to Wetz et al (2021) [16] for more details.…”

Section: Experiments Descriptionmentioning

confidence: 99%

“…In a first approach the wind forces were calculated according to Wetz et al (2021) [16], assuming zero motion of the UAS during hovering (see Eq. ( 6)).…”

Section: Basic Equations Of Quadrotor Dynamicsmentioning

confidence: 99%

“…The calibration target values for the longitudinal wind component are 2 s average wind speeds of the corresponding sonic anemometer measurements. The short average time compared to Wetz et al (2021) [16] is chosen for better statistics in the calibration of the velocity variance. First, the proportional parameter c x and the exponent b x of Eq.…”

Section: Wind Vector Calibrationmentioning

confidence: 99%

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Spatially distributed and simultaneous wind measurements with a fleet of small quadrotor UAS

Wetz

Wildmann

2022

J. Phys.: Conf. Ser.

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The understanding of micro-scale flow in the atmospheric boundary layer is one major challenge in wind energy research. Besides the broad possibilities of numerical simulations, experimental data are necessary for tests of the flow conditions within a wind farm under real conditions. In wind energy and atmospheric science, a variety of measurement devices exist for measuring the wind speed. We propose a measurement system that enables completely flexible simultaneous wind measurements using a fleet of multirotor unmanned aircraft systems (UAS). This approach is validated through a two-week measurement campaign at the boundary layer field site Falkenberg of the German National Meteorological Service (DWD). The wind speed is calculated from UAS motions in hover state without additional wind sensors. The measurements are calibrated and validated against sonic anemometers mounted at a 99 m mast. The capability of highly accurate spatial distributed wind measurement with an improved wind algorithm is proven by a root mean square error (RMSE) of 0.25 ms−1 for the horizontal wind speed and < 5° for the wind direction. Further, turbulence measurements are presented showing valid results up to a frequency of 2 Hz in high turbulence conditions. Additionally, spatially horizontal distributed measurements with multiple UAS are examined in a case study of a gust front event.

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Section: Methodsmentioning

confidence: 99%

Section: Experiments Descriptionmentioning

confidence: 99%

“…In a first approach the wind forces were calculated according to Wetz et al (2021) [16], assuming zero motion of the UAS during hovering (see Eq. ( 6)).…”

Section: Basic Equations Of Quadrotor Dynamicsmentioning

confidence: 99%

Section: Wind Vector Calibrationmentioning

confidence: 99%

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Spatially distributed and simultaneous wind measurements with a fleet of small quadrotor UAS

Wetz

Wildmann

2022

J. Phys.: Conf. Ser.

Self Cite

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“…To validate the remote sensing data prior to the installation of measurement masts at the WiValdi site, a two-week long campaign was carried out in September 2021. 14 radiosondes were launched in this period and in parallel to each radiosonde launch, a meteorological multicopter UAS (see [9]) was launched to obtain soundings in the lowest 100 meters. The radiosonde data up to 10 km are particularly useful to assess the performance of the MWR retrievals.…”

Section: Validation Of Remote Sensing Measurementsmentioning

confidence: 99%

Enhanced resource assessment and atmospheric monitoring of the research wind farm WiValdi

Wildmann

Hagen

Gerz

2022

J. Phys.: Conf. Ser.

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Prior to the installation of wind turbines at the Krummendeich research wind farm (referred to as WiValdi) which is developed by the German Aerospace Center (DLR), we conducted measurements with a Doppler wind lidar (DWL) and a microwave radiometer (MWR) for 16 months, starting in November 2020. The remote sensing data was validated against radiosonde measurements in a short-term campaign in September 2021. We present a statistical analysis of wind speed, direction, shear and veer as derived from the DWL as well as static stability from temperature retrievals of the MWR in comparison to model results of the New European Wind Atlas (NEWA). The observational data from 2021 shows a higher occurence rate of winds from northwest in comparison to the longer-term statistics of NEWA (2011-2018). From the overall statistics, cases with the occurence of low-level jets (LLJ) are detected and separated. The LLJs appear in 49% of the observed nights and predominantly in conditions with seaward wind direction. The LLJ increases shear and veer in the rotor swept area and thus the potential loads significantly. Future research at WiValdi will allow to analyse the effects of such load cases on the wind turbines in detail.

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A case study of offshore evaporation ducts in northeastern Taiwan during summer time

Hou,

Chiao,

Tsai

2024

Meteorol Atmos Phys

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Distributed wind measurements with multiple quadrotor unmanned aerial vehicles in the atmospheric boundary layer

Cited by 24 publications

References 32 publications

Spatially distributed and simultaneous wind measurements with a fleet of small quadrotor UAS

Spatially distributed and simultaneous wind measurements with a fleet of small quadrotor UAS

Enhanced resource assessment and atmospheric monitoring of the research wind farm WiValdi

A case study of offshore evaporation ducts in northeastern Taiwan during summer time

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