Research & Development
Project
CASSIOWPE
Characterising the atmosphere and sea surface interactions for the deployment of offshore wind in the Gulf of Lion
- Duration: 36 months (2020-2023)
- Budget: €1,300K
Context
The Gulf of Lion is frequently exposed to strong winds, making it an area with high wind energy potential. The development of floating systems is favoured because the water depth increases rapidly. However, the environmental conditions in this area are complex (strong onshore winds, winter storms from the south or west, etc.), resulting in a wide variety of sea states. These meteocean conditions are not correctly reproduced in the operational numerical models currently in use.
Objective
- To better characterise weather and ocean conditions in the Gulf of Lion to support the deployment of floating wind turbines in the Mediterranean
Main achievements
Compilation of existing in situ measurements, covering wind and sea states
Development of a coupled ocean-wave-atmosphere modelling chain to assess the impact of air-sea interactions on the wind resource
Creation of a one-year database of winds, waves and currents generated using this coupled simulation
Main outputs
- Review of existing databases of meteocean observations carried out between 2011 and 2020 in the Gulf of Lion
- Coupled ocean-wave-atmosphere modelling
chain adapted to the specific conditions of
the Gulf of Lion - Retrospective database for 2020 validated by comparison with observations and integrating new variables, ocean-wave-atmosphere coupling and a fine temporal resolution
Conclusion
CASSIOWPE has made it possible to develop a coupled ocean-wave-atmosphere model and associated methodology that are extremely useful for studying meteo-oceanic processes. A one-year retrospective database has been created and validated using a wide range of observations. It stands out both for its high spatial and temporal resolution and for the diversity of meteocean variables simulated. It can be used for comparisons with the databases usually used by offshore wind sector.
Partners
This project was led by Laboratoire d’Océanographie Physique et Spatiale (LOPS) and France Energies Marines.
Funding
This project received French State funding managed by the National Research Agency under the France 2030 investment plan (ANR-10-IEED-0006-34). It also received financial support from the SUD Provence-Alpes-Côte d’Azur region, and Pôle Mer Méditerranée.
Accreditation
This project was certified by the maritime cluster Pôle Mer Méditerranée.
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