spot_img

Milestone for more cost-effective production of high-performance rotor blades

Date:

Share:

Milestone for more cost-effective production of high-performance rotor blade

Covestro receives first DNV adjustment certification for partial reduction factor γm1 of wind turbine blades using aging-resistant PU.

Covestro has now received the first adjustment certification from DNV, the wind power industry’s certification organization, for the so-called partial reduction factor γm1 of wind turbine blades made of aging-resistant polyurethane (PU). This factor is an important indicator of the long-term aging resistance of rotor blades and is also used to measure the long-term service performance of the blades. It is also the first time that DNV has evaluated and adjusted this factor.

To do so, DNV evaluated complex and rigorous comparative tests as well as theoretical analysis by Covestro. Based on design standards for wind rotor blades (DNVGL-ST-0376:2015), DNV confirmed and adjusted the partial reduction factor γm1 of polyurethane resin processed using the vacuum infusion process. This certification applies to the Baydur 78BD085 PU resin and the Desmodur 44CP20 hardener from Covestro.

Longer and lighter rotor blade designs

Resin materials must prove their long-term aging resistance before they can be given lower safety margins that allow for broader rotor blade design and application. For the first time ever, DNV has lowered the γm1 factor of polyurethane resin, marking an important milestone for Covestro.

Compared to epoxy resin, which is often used to manufacture rotor blades, polyurethane resin shows better mechanical properties. With a lower γm1 value, rotor blade designers can take full advantage of polyurethane and also achieve greater design freedom. As the need for longer and larger rotor blades increases, so does the weight of the blades.

Therefore, weight reduction has become an important issue in the rotor blade industry. Polyurethane resin enables the production of lighter blades of the same length, which greatly improves the efficiency of blade production and its applications.

Dr. Irene Li, vice president of research and development for Covestro’s Tailored Urethanes business entity in the Asia Pacific, remarked, “We are pleased that the excellent performance of polyurethane has been recognized by a wind power industry’s certification authority.

As more and more polyurethane rotor blades are installed, we look forward to furthering innovations in polyurethane resin and the rapid development this will bring to the wind power industry.”

Innovative materials in focus

For a long time, epoxy resin was the main material used in the production of wind rotor blades. For years, Covestro has invested in research into polyurethane resins to improve rotor blade performance and reduce manufacturing costs. Today, polyurethane – new material in the field of wind rotor blade manufacturing – is rapidly gaining recognition in the market. With this innovative solution, Covestro aims to drive the use of renewable energy and, in the end, the shift to a circular economy.

Kim Sandgaard-Mørk, executive vice president of DNV’s Renewable Energy Certification Division, said, “Wind turbine blades are becoming lighter and larger, while favorable feed-in tariffs for wind energy are gradually being reduced. This poses a challenge for cost control in wind rotor blade production and development.

The wind power industry is therefore looking for new material applications while optimizing designs to reduce costs while ensuring optimal performance. By demonstrating the performance of polyurethane under the new blade standards and obtaining a new safety factor certification for its resin products, Covestro is blazing a new trail for blade design.”

Click here

https://modernplasticsindia.com/

 

- Advertisement -spot_img
- Advertisement -spot_img

━ More Like This

Dr. Axel Von Wiedersperg Elected To Chair The Organization

Dr. Axel Von Wiedersperg Elected To Chair The Organization The inaugural meeting of the Exhibitor Advisory Board has marked the start of preparations for K...

Next-Generation Rotating Retractors Reach Every Corner Of Processing Lines

Next-Generation Rotating Retractors Reach Every Corner Of Processing Lines In spray-drying applications, including powder production, within hygienic processing industries, incomplete cleaning of hard-to-reach surfaces can...

Aduro Clean Technologies Secures Fresh Capital For Future Expansion

Aduro Clean Technologies Secures Fresh Capital For Future Expansion Aduro Clean Technologies Inc., a clean technology company using the power of chemistry to transform lower...

PLAST 2026: A Benchmark For The Future

PLAST 2026: A Benchmark For The Future The twentieth edition of PLAST, the international exhibition dedicated to the plastics and rubber industry, successfully ended on...

HIPLEX 2026: The Future Hub Of Plastics Innovation In South India

HIPLEX 2026: The Future Hub Of Plastics Innovation In South India Every industry has people who spot where things are headed well before everyone else...