Worley completes design assessment for Saitec Offshore’s floating wind turbine

17 July 2020

DemoSATH is a 2 MW turbine, mounted onto a concrete floating foundation. Once connected to the grid, DemoSATH is expected to supply electricity to almost 2,000 homes.

The project will test the very first floating wind foundation connected to the Spanish grid using SATH (Swinging Around Twin Hull) technology.

The project has benefited from Worley’s extensive technical expertise, acquired through decades of project experience in the oil, gas and offshore wind industries.

Worley provided advisory services pertaining to the access, inspection and maintenance of boat landings and turret access design assessments. Worley also consulted on access materials, handling scenarios depending on the weather conditions, different human factors and Health, Safety, Security and Environment (HSSE) requirements.

“Maximizing availability of floating wind is one of our ultimate goals and having the opportunity to collaborate with Worley and taking advantage from their know-how and expertise serves as a stepping-stone towards a safe and optimal operation of SATH platforms,” said David Carrascosa, Chief Technology Officer, Saitec Offshore.

About DemoSATH project

With the expertise and financial support of RWE Renewables, DemoSATH project aims to prove the behaviour of the SATH Floating Solution under real operational and extreme conditions, collect data and gain real-life knowledge from the construction, operation and maintenance of the unit. The pilot construction in the Port of Bilbao, will start in Q3 2020 and once installed and connected to the grid, a two-year operating phase will follow.

The ultimate objective is to gather experience to implement improvements and optimizations to future commercial projects.

 



Privacy Policy
We have updated our privacy policy. In the latest update it explains what cookies are and how we use them on our site. To learn more about cookies and their benefits, please view our privacy policy. Please be aware that parts of this site will not function correctly if you disable cookies. By continuing to use this site, you consent to our use of cookies in accordance with our privacy policy unless you have disabled them.