DNV releases updated standard for offshore wind turbine structures

DNV’s recognized standard for design of offshore wind turbine structures has been through a revision process together with the wind energy industry. The updated standard which aims to reduce cost and increase safety is now available.

The standard, Design of Offshore Wind Turbine Structures (DNV-OS-J101), provides principles, technical requirements and guidance for design, construction and in-service inspection of offshore wind turbine structures. After its launch in 2004 it has been widely used in the offshore wind industry. This is the third revision of the standard and the updated document has been through a comprehensive peer review process involving many leading industry experts in addition to DNV’s internal quality review process.

The updates are focused on reducing costs and increasing safety. Specific highlights include:

Section 9 for grouted connections is rewritten. It is clarifying that the scope is limited to tubular and conical grouted connections in monopile structures and referring to other standards for grouted connections in other types of structures. Further, it introduces new design requirements for grouted connections without shear keys. These have been based on recent research including lab-tests and replace previous requirements which have proven inadequate. DNV along with leading industry participants are currently completing laboratory testing on scale effects of grouted connections with shear keys to provide the industry with improved data and guidance on the use of shear keys in monopile solutions. Results from this work, once reviewed and accepted through the Joint Industry Project process, will necessitate another update to DNV-OS-J101.

Section 11 for corrosion protection is restructured and expanded. It is first stating requirements for which types of corrosion protection shall be applied in the different corrosion zones, and subsequently stating requirements for corrosion allowance, cathodic protection and coating. Further, DNV replaced the definition of splash zone with the definition used in IEC61400-3.

Section 12 for transport and installation is rewritten. It is providing a more detailed introduction and bringing the standard in alignment with DNV Rules for Marine Operations.

Section 13 for inspection is rewritten. It is bringing the standard in alignment with current practice for the necessary level of inspection in large wind farms and giving the owner a choice between periodic inspections and inspections according to a risk-based inspection plan.

In order to ensure stakeholders a transparent, cost efficient and unified approach of building wind energy technology, DNV has since 2001 taken on the role of developing standards, specifications and guidelines. These documents integrate decades of experience from the offshore industry with in-depth wind turbine knowledge gained from the type certification of large megawatt turbines.

Additional publications include:

Standard for Design and Manufacture of Wind Turbine Blades, Offshore and Onshore Wind Turbines
Standard for Offshore Substations for Wind Farms
Standard for Classification of Wind Turbine Installation Units
Recommended Practice for the Use of Remote Sensing for Wind Energy Assessments
Guidelines for Design of Wind Turbines.

Further information and copies of these documents can be obtained here.

Date: 27 September 2011

Author: Svein Inge Leirgulen

Byoung Jun Kim

DNV has been a global leader in the wind industry for over 25 years and is the largest wind energy consultancy in the U.S. as well as one of the world’s largest combined consultancies and certification bodies. More than 250 DNV colleagues are employed directly in delivering wind energy expertise while many more contribute from our other business areas such as maritime and energy. Our wind energy offices are located in Denmark, UK, Germany, Norway, U.S., China, South Korea, Singapore, Brazil, and India.

DNV offers a broad range of advisory services that support the wind industry in its critical technical and financial decision making. These include initial site selection, wind resource assessment and energy analysis to power performance testing, technical due diligence for investors and operational risk management.

DNV also provides third party type certification of onshore and offshore turbines, as well as certification of offshore wind farms. This helps to minimize late design changes and secures the confidence of manufacturers, developers, owners, financiers, insurers and the relevant authorities.

Since 2001, DNV has worked in close cooperation with the wind industry to develop the state of the art knowledge that ensures transparent, cost efficient and unified approaches to building wind energy technology. This knowledge is published in our standards, rules, guidelines and recommended practices. We are also leading international efforts to standardize design practices through active participation in the IEC and other standards bodies.

Building on our role as the world’s leading classification society, DNV has supported the development of all types of installation and service vessels. This included the development of the world’s first class notations for these vessels to improve safety and promote uniform standards.

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