Institute for Energy Transition
dedicated to Marine Renewable Energies
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Symbole FEM
19/10/2018

Mooring and Anchoring Research Engineer

The lighthouse of the Jument seen from the sky
26/09/2018

Using the building as an experimental device on a scale of 1:1.

MISTRAL sea test site: Informational meeting
17/09/2018

Informational meeting at Port-Saint-Louis-du-Rhône city on September 14th.

Example of colonization by benthic species of a sumarine cable - BREBENT Project, FEM-IFREMER
14/08/2018

To study in an integrated way the impact of floating wind farms.

OES Annual Report 2017
13/03/2018

This Annual Report presents an overview of the activities undertaken within OES in 2017, as well as updated country reviews prepared by the Delegates

Unprecedented experimentation at the lighthouse of the Jument
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Unprecedented experimentation at the lighthouse of the Jument

Using the building as an experimental device on a scale of 1:1.

A collaborative R&D project

France Energies Marines, the national reference institute for research on renewable marine energies, is currently coordinating a collaborative R&D project aimed at improving knowledge of sea states in the event of storms in order to optimize the design of renewable energy recovery systems such as floating wind turbines. Indeed, such machines are exposed to extreme waves can endanger their mechanical structure. If these extreme waves are brought to break, the danger for the machines is even greater. It is therefore essential to better understand and characterize these phenomena.

An experimental system on a scale of 1:1

The project, called DIME, includes a groundbreaking operation that began in December 2017 near the Ile d'Ouessant, with the support of Cerema, Ifremer, Shom and Helmholtz-Zentrum Geesthacht (HZG), a German materials and coastal research centre. The principle? Use the lighthouse of the Jument as an experimental device on a scale of 1:1. A current profiler located at the foot of the building and a wet swell buoy 2 km to the west provide in situ information on the waves and surrounding currents. State-of-the-art equipment has also been installed at the top of the lighthouse: a camera system allows the waves to be reconstructed in three dimensions, and a radar is used to map the wave field on a larger scale. Accelerometers quantify the building's movements under the influence of waves.  Three pressure sensors will soon be installed on the front of the lighthouse to determine wave forces.

Winter campaigns

The measurement campaign carried out during the winter of 2017-2018 will be repeated over the next three winters. After exploitation and analysis, the latter will improve the predictability of extreme and breaking waves, an essential element for optimising renewable energy recovery systems and thus their cost competitiveness. The knowledge gained will also be very useful in the current context of intensifying storms and exposing populations to the risk of increased marine flooding. The Mare's lighthouse will not be forgotten because the data will be used to refine the estimate of its lifespan and to recommend consolidation measures to extend it.

Partners with complementary contributions

The DIME project is funded by France Energies Marines and the State managed by the Agence Nationale de la Recherche under the programme Investissements d'Avenir (ANR-10-IEED-0006-14). The experiment on the lighthouse of the Jument was also supported by the Filière Mer of the Crédit agricole. Coordinated and scientifically managed by France Energies Marines, the project brings together a consortium of 17 academic and private partners with complementary skills and contributions, guaranteeing quality scientific work.