Poster: Influence of Atmospheric Thermal Stability in Wind Resource Assessment for Complex Site with Prevailing Unstable Conditions and Atypical Wind Profiles

Feb 19, 2026 | Case studies, Onshore and Offshore Wind, Resources, Scientific papers

Carried out in collaboration with EDF Power Solutions and presented at the french Wind Energy Scientific Days (Journées Scientifiques de l’Éolien) in February 2026, this work demonstrates that, in order to accurately assess a site’s wind resources, it is...

Poster: Influence of atmospheric stability determination methods on wind resource assessment and negative wind shear simulation

Jan 13, 2026 | Case studies, Onshore and Offshore Wind, Resources, Scientific papers

Carried out in collaboration with EDF Renouvelables (now EDF Power Solutions) and presented at the WindEurope Technology Workshop in June 2025, this poster demonstrates once again that thermal stability consideration is essential for accurate Wind Resource Assessment,...

Webinar: Applying CFD-based WRA methodology to a coastal wind project in Japan

Oct 13, 2025 | Case studies, News, Onshore and Offshore Wind, Webinars

Join us to discover the new METEODYN WT Scientific Wind Sessions, a webinar series based on real wind farm projects. The methodology used with METEODYN WT will be presented in detail on real projects carried out in collaboration with industrial partners. To accurately...

EMS Meeting 2025: METEODYN presents an online talk

Sep 3, 2025 | Case studies, Climate change, Meso-micro coupling, News, Onshore and Offshore Wind

Don’t miss out on our participation in the European Meteorological Society Meeting From 7 to 12 September, Ljubljana, the Slovenian capital, will host the annual meeting of the European Meteorological Society. An event dedicated to the exchange of knowledge and ideas...

Poster: Wind modeling through meso-micro coupling method with thermal stability effects

Oct 14, 2024 | Case studies, Onshore and Offshore Wind, Resources, Scientific papers

In coastal areas, where wind conditions are strongly influenced by local topography and thermal stability, accurate modelling is crucial for the efficiency of wind farms. This study applies the Meso-Micro Coupling (MMC) method to a coastal wind farm and compares it...

Poster: Improving Wind Resource Modelling in Coastal Areas through Advanced CFD methods with integration of Mesoscale Data

Sep 16, 2024 | Case studies, Onshore and Offshore Wind, Resources, Scientific papers

Les zones côtières, bien qu’idéales pour les parcs éoliens, ont des effets climatiques régionaux qui peuvent affecter de manière significative l’évaluation de la ressource en vent (WRA). Il est donc essentiel de choisir la bonne méthodologie...