- Fourteen companies from the wind, oil & gas and maritime sector have launched the Joint Industry Project “Coupled Analysis of Floating Wind Turbines“ led by DNV GL
- Goal of the project is the development of a Recommended Practice for the coupled analysis for the design of floating offshore wind turbines
- Standardisation aims to minimise risks in the development process and cost estimation by aligning current analysis methods and deliver evaluations based on unified methodologies
Hamburg, Germany – 19th July 2016 – DNV GL, the world’s largest resource of independent energy experts and certification body, has launched a new joint industry project (JIP) together with fourteen global partners to mutually develop a Recommended Practice for the coupled analysis of floating offshore wind turbines. Despite the fact that the wind industry has a strong focus on the development of floating offshore wind turbines, it is still missing a widely recognised and unified approach for the practical methods to build and validate the numerical models, in accordance with the requirements in the standards. Standardisation is a key milestone to guide the industry towards the development of reliable floating wind turbines. Guidance includes setting up minimum requirements for the design on new concepts that can help investors’ evaluation, and supporting the more mature technologies towards a safe and secure commercialisation.
The project is the first of its kind, bringing together multiple stakeholders from the wind, oil & gas and maritime industries, making it the most interdisciplinary project that engages in the technical advancement for floating offshore wind projects to date.
The participants come from a broad range of industries, including utilities, component manufacturing, engineering consultants, maritime research institutes, shipyards and academic research. The following companies are contributing to the development of the new Recommended Practice:
- STX Solutions Europe
- NAUTILUS Floating Solutions
- Dr. Techn. Olav Olsen
- National Renewable Energy Laboratory (NREL)
Floating wind turbine specialist Denis Matha from Ramboll commented on the engineering consultancy’s participation in this project: “Ramboll supports this joint industry project and will contribute to this effort by providing our knowledge and experience in the design and analysis of floating wind turbines, covering coupled simulation as well as our structural, mooring and cable expertise. We expect that this project will provide an excellent platform to jointly develop a Recommended Practice by addressing the key issues and bringing together the expertise of key stakeholders.”
Ideol’s CEO Paul de la Guérivière said: “We are happy to join this JIP and share our years of experience coupling multiple wind turbines with our patented floater. We have been convinced for a long time of the benefits of a common framework for the loads analysis of floating wind turbines and are confident that such efforts will lead to substantial gains in efficiency and cost. The Recommended Practice should strongly help the floating offshore wind industry and accelerate the development of commercial-scale floating wind farms.”
The new Recommended Practice will build on the experience from the application of the Offshore Standard DNV-OS-J103 “Design of Floating Wind Turbine Structures“ which was published in 2013 and will contain methods and ways to fulfil the requirements set in DNV-OS-J103.
Since its publication, the offshore standard DNV-OS-J103 has been broadly used for the design of floating wind turbine structures. At the time of publication, the practical experiences in the field of floating offshore wind energy have been rather limited in providing reliable information on validating numerical models for the turbine construction and reliable insight on the level of complexity required at each individual project stage. Over the last three years, the industry has greatly advanced moving the commercialisation of the new technology forward, as the world’s first floating wind farm demonstration projects have since been launched.
Based on the latest knowledge and practical know-how, the joint approach of developing the future Recommended Practice will greatly reduce the risk of inadequate analysis, leading to substantial time savings. Further advantages stem from the focus on the design of floating wind turbines and the validation of numerical models in respect to their subsequent certification. The coherent structure of the Recommended Practice also provides a unified cost structure for the project development process.
Luca Vita, Project Manager of the Joint Industry Project and Senior Engineer at DNV GL – Energy, Renewables Certification commented: “The analysis of floating wind turbines is a complex challenge that requires the integration of different technologies and disciplines. The lack of a common agreement on the optimal approach to conduct these analyses during the different stages of the design process adds potential risk factors and time delays in the project development, but also in the cost evaluation of new conceptual designs. This project provides a unique platform to mutually develop an invaluable Recommended Practice which will be beneficial to each industry stakeholder, taking the wide-ranging spectrum of interdisciplinary skills and business objectives of each participant into account.”
Johan Sandberg, Segment Leader – Floating Wind Turbines at DNV GL – Energy added: “We are very happy to continue our commitment to making floating wind power a reality and a large scale energy technology. Understanding coupled analysis is a key part of designing and optimising a floating wind turbine and it is encouraging that the industry’s interest in this has been so strong. The partners in this project contribute with a wide range of valuable competences, which will make the result effective and credible.”
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