Institute for Energy Transition
dedicated to Marine Renewable Energies
RSS News
New dives in the Mediterranean Sea
09/12/2019

New dives in the Mediterranean Sea

Felipe Lucero
04/12/2019

Hosting a Chilean MERIC researcher

3e campagne hivernale de mesures
28/10/2019

Launch of the 3rd winter measurement campaign

Essais hydrodynamiques en bassin
18/10/2019

Latest progress of the OMDYN2 project

DUNES R&D project
15/10/2019

DUNES R&D project: information meeting in Dunkirk on 15 October

HYD2M

Raz Blanchard hydrodynamics: measurements and modelling

Duration: 3 years

Project description

Improving energy production estimation is a key aspect of research in the field of marine renewable energy. The typical error in tidal current prediction at tidal energy sites is about 10%, which results in a 30% error for the tidal power estimation. To reduce these errors, wave-current interactions need to be correctly taken into account in hydrodynamic numerical models. HYD2M will address this issue based on in situ field experiments and an high frequency radar deployment that will help in developing the hydrodynamic numerical models through a better understanding of the wave-current interaction physics. The project is expected to provide a reliable numerical platform for the prediction of hydrodynamics in the Raz Blanchard.

Objectives

  • Study the impact of sea state and storms on energy resources using in situ radar measurements and numerical modeling.
  • Applications: site monitoring, forecasting and estimation of production.

Partners

Coordination: France Energies Marines
Scientific and technical management: Université de Caen Normandie
  

HYD2M project partners

This work received state support managed by the National Research Agency under the Investments for the Future program (ANR-10-IEED-0006-07). It is one of the winners of the 2015 "Renewable Marine Energies" call for projects launched as part of the "Institutes for Energy Transition" action of the Future Investment Programme.
 
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