Posters
Come meet the poster presenters to ask them questions and discuss their work
We would like to invite you to come and see the posters at our upcoming conference. The posters will showcase a diverse range of research topics, and will give delegates an opportunity to engage with the authors and learn more about their work. Whether you are a seasoned researcher or simply curious about the latest developments in your field, we believe that the posters will offer something of interest to everyone. So please join us at the conference and take advantage of this opportunity to learn and engage with your peers in industry and the academic community.
On 9 April at 17:15, we’ll also hold the main poster session and distinguish the 7 best posters of this year’s edition with our traditional Poster Awards Ceremony. Join us at the poster area to cheer and meet the laureates, and enjoy some drinks with all poster presenters!
We look forward to seeing you there!
PO146: Applying the latest of recommended practices to assess corrected turbulence intensity measurement from Floating LiDAR Systems
Salma YAHIAOUI, R&D engineer, AKROCEAN
Abstract
Floating LiDAR systems (FLS) have become indispensable tools in the wind energy industry for several reasons. They allow for remote measurements of wind characteristics at varying heights above the sea surface, they are a safer alternative to met masts and they reduce the cost of a project. TI (Turbulence intensity) is a key determinant of the performance and longevity of wind turbines. High turbulence intensity can lead to increased wear on turbine components, reduced energy production, and decreased turbine lifespan. Therefore, accurate assessment and prediction of turbulence intensity are crucial for designing and optimizing wind farms. Floating LiDAR systems measure turbulence intensity. However, the motion of the buoy due to waves and currents can introduce errors or variability in the LiDAR measurements. A TI motion correction algorithm, for pulsed LiDARs, was developed to quantify the error induced by the buoy motion and thus correct the FLS TI measurements in order provide accurate and precise estimates. The accuracy and precision of the corrected TI measurements is assessed not only following the CFARS Site suitability initiative Key Performance Indicators (KPIs) but also DNV RP-0661 latest recommended practices (RP) KPIs.
No recording available for this poster.
