After 6 years of research on offshore wind farms and over
40 years in the building industry, we are proud to
present to you today a revolutionary way of building floating wind farms: the patented EOLE STAB® platform technology.
After 6 years of research on offshore wind farms and over
40 years in the building industry, we are proud to
present to you today a revolutionary way of building floating wind farms: the patented EOLE STAB® platform technology.
Stable against the waves, even strong ones

The platform is kept submerged thanks to a patented multi-three-dimensional tendon system, with a caisson topped with an openwork mast that has low drag even in rough seas. These features ensure remarkable stability to the platform, even in conditions of a hundred-year storm.

Stable against the waves, even strong ones

The platform is kept submerged thanks to a patented multi-three-dimensional tendon system, with a caisson topped with an openwork mast that has low drag even in rough seas. These features ensure remarkable stability to the platform, even in conditions of a hundred-year storm.

Stability against the wind

The EOLE STAB® platform can accommodate all high-power wind turbines. Its mast maintains a vertical position relative to the wind direction, which optimises performance thanks to our patented system.

Stability against the wind

The EOLE STAB® platform can accommodate all high-power wind turbines. Its mast maintains a vertical position relative to the wind direction, which optimises performance thanks to our patented system.

Reduction in manufacturing costs

The EOLE STAB® platform is designed to be entirely manufactured on shore, equipped with its wind turbine, and then towed to the operating site. This method makes it possible to reduce material consumption by 48%, offering environmental benefits and reducing manufacturing costs.

Reduction in manufacturing costs

The EOLE STAB® platform is designed to be entirely manufactured on shore, equipped with its wind turbine, and then towed to the operating site. This method makes it possible to reduce material consumption by 48%, offering environmental benefits and reducing manufacturing costs.

Less maintenance

Maintenance costs for mechanical components are proportional to the accelerations they undergo. By reducing movements, the EOLE STAB® platform decreases accelerations, resulting in a reduction of maintenance costs and an increase in equipment lifespan. This translates into increased profitability for the investor.

Less maintenance

Maintenance costs for mechanical components are proportional to the accelerations they undergo. By reducing movements, the EOLE STAB® platform decreases accelerations, resulting in a reduction of maintenance costs and an increase in equipment lifespan. This translates into increased profitability for the investor.

Accommodating all wind turbines

The technology of the EOLE STAB® platform can accommodate all types of turbines and is specifically designed for turbines over 15 MW.

Accommodating all wind turbines

The technology of the EOLE STAB® platform can accommodate all types of turbines and is specifically designed for turbines over 15 MW.

An expert always available

Fill out the form below, and our team of technical experts will be delighted to guide you through our solution, tailored to your specific needs.

An expert always available

Fill out the form below, and our team of technical experts will be delighted to guide you through our solution, tailored to your specific needs.

What are the main advantages of a wind turbine coupled with the EOLE STAB® platform solution?

01
Cost reduction

Building, set-up and maintenance costs are surprisingly low compared to classic offshore platforms.

02
Stable platform

Reduction of maintenance costs thanks to the reduction, and even the elimination, of the accelerations to which classic platforms are subject.

03
Fewer resources

Thanks to the stability of the EOLE STAB® platform, wind turbines require fewer resources than traditional solutions.

04
Energetic transition

The EOLE STAB® platform accelerates the energy transition at a reduced cost, while also aiding the host country in achieving energy independence.

Published in Mat Environnement on 21/11/2024

Eole Stab Featured on the Cover of Mat Environment

A French Innovation for Offshore Wind Power

This month, Mat Environment magazine highlights Eole Stab and its groundbreaking floating platform for offshore wind turbines. Combining technological innovation, exceptional stability, and cost optimization, our solution is paving the way for new horizons in renewable energy at sea.

Published in Le Journal de l'entreprise april 2024

Eole Stab in the press!

With the help of students from the SeaTech school in Toulon, the start-up Eole Stab has validated its platform on a 1/100 scale, capable of accommodating large wind turbines. New testing campaigns are planned before commercialisation.

News section screened on 27/02/2024

Eole Stab in French television news

How to reconcile economic and environmental issues? Over the past two years, under the supervision of professionals, future engineers from SeaTech have moved on to the experimental phase of the Eole Stab platform, and the results of their work are promising for a rapidly growing renewable energy market.

Published in Var Matin on 27/02/2024

Eole Stab in Var Matin

The Var-based startup Eole Stab has developed a platform that significantly reduces the effects of waves on installations, boosting their performance while reducing their costs.

PUBLISHED ON Les Energies de la mer On 27/02/2024

The magazine Les Energies de la Mer takes an interest in Eole Stab

Invented by three experts in building, maritime testing, and offshore platforms (Philippe Durand, Denis Gieulles & Dominique Michel) and operated by the startup EOLE STAB, a concrete floater capable of accommodating a 15 MW wind turbine is now validated at a 1/100 scale in close scientific collaboration with the engineering school SEATECH.

Published in Var Matin on 22/02/2023

EOLE STAB in the news

Six students from the SeaTech engineering school at the University of Toulon worked on the technical feasibility of a platform for offshore wind turbines. Analysis of this large-scale project.

For a better world

Let's make some change

Talk to our expert and receive the password to watch our exclusive video and understand how our patented solution can save money on installation and maintenance on traditional wind farm platforms.

Stephanie Durand (CEO) - OCEANIA and ASIA

Julien Durand (Managing Director) - EUROPE, AMERICAs and AFRICA

OUR TECHNICAL EXPERTS

Philippe Durand

Dominique Michel

Denis Gieulles (Expert Technique)

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    We aren't going to spam you with emails or call you a thousand times. After you fill this form, we'll send you a confirmation email with the password to view the full video. And if you're interested, we may ask you a few questions about what you're looking to accomplish, and a few resources to review before our meeting.