Design of floating offshore wind turbines and impacts of energetic steep and breaking waves

DIMPACT

Axel Dombrowski

Director Innovation & Digitalisation, Renewables Certification

Interested in following this project?

DNV runs a Joint Industry Project to use LIDAR turbulence intensity measurements for different applications

Objectives

20200301 Wave elevation 380x320p Provide a field, experimental and numerical database of energetic steep or breaking waves effects on floating offshore wind turbines.

Produce improved certification documents and simplified engineering tools accounting for the computation of energetic steep or breaking waves effects in the assessment of the ultimate limit state of floating offshore wind turbines.

DNV participates with a focus on updating documents (OTG-14) and verify methods.

Details

Start: March 2020.
Duration: 36 months.

Partners:

Cerema
EDF
ENSTA Bretagne
Equinor
EOLFI
Ifremer
Ismar
MorphoSense
SAIPEM
SHOM
Sustainable Energy
Total
Unitech
University of Rhode Island

DIMPACT

Axel Dombrowski

Director Innovation & Digitalisation, Renewables Certification

Send email

Design of floating offshore wind turbines and impacts of energetic steep and breaking waves

Joint Industry Project

DIMPACT

Axel Dombrowski

Interested in following this project?

Objectives

Details

DIMPACT

Axel Dombrowski

Interested in following this project?

Related services

Joint Industry Projects homepage

Joint Industry Projects per category

DIMPACT

Axel Dombrowski

Interested in following this project?

SHARE:

Objectives

Details

DIMPACT

Axel Dombrowski

Interested in following this project?

Related services

Joint Industry Projects homepage

Joint Industry Projects per category