Towards mobile wind measurements using joust configured ultrasonic anemometer for applications in gas flux quantification

Drones
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Abstract

Small uncrewed aerial systems (sUASs) can be used to quantify emissions of greenhouse and other gases, providing flexibility in quantifying these emissions from a multitude of sources, including oil and gas infrastructure, volcano plumes, wildfire emissions, and natural sources. However, sUAS-based emission estimates are sensitive to the accuracy of wind speed and direction measurements. In this study, we examined how filtering and correcting sUAS-based wind measurements affects data accuracy by comparing data from a miniature ultrasonic anemometer mounted on a sUAS in a joust configuration to highly accurate wind data taken from a nearby eddy covariance flux tower (aka the Tower). These corrections had a small effect on wind speed error, but reduced wind direction errors from 50° to >120° to 20–30°. A concurrent experiment examining the amount of error due to the sUAS and the Tower not being co-located showed that the impact of this separation was 0.16–0.21 ms1, a small influence on wind speed errors. Lower wind speed errors were correlated with lower turbulence intensity and higher relative wind speeds. There were also some loose trends in diminished wind direction errors at higher relative wind speeds. Therefore, to improve the quality of sUAS-based wind measurements, our study suggested that flight planning consider optimizing conditions that can lower turbulence intensity and maximize relative wind speeds as well as include post-flight corrections.

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Publication type Article
Publication Subtype Journal Article
Title Towards mobile wind measurements using joust configured ultrasonic anemometer for applications in gas flux quantification
Series title Drones
DOI 10.3390/drones9020094
Volume 9
Issue 2
Year Published 2025
Language English
Publisher MDPI
Contributing office(s) Geology, Minerals, Energy, and Geophysics Science Center
Description 94, 17 p.
Country United States
State Alaska
Other Geospatial Bonanza Creek Long-term Ecological Research site
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