Covestro, Goldwind and LZ Blades develop 64.2-meter polyurethane wind turbine blade

Materials manufacturer Covestro has successfully developed a 64.2-meter wind turbine blade made completely from polyurethane resin.

The blade, made jointly with leading Chinese wind turbine manufacturer Goldwind, and leading wind blade manufacturer LZ Blades, represents a breakthrough in the application of polyurethane resin in large-scale wind turbine blades and marks the beginning of a new generation of longer and stronger blades for the wind power industry.

Dr. Irene Li, Head of Application Development Asia Pacific in the Polyurethanes segment at Covestro

Dr. Irene Li, Head of Application Development Asia Pacific in the Polyurethanes segment at Covestro said:

“In the course of our R&D cooperation with Goldwind and LZ Blades, the superior properties of polyurethane resin were further proven through this trial production. We believe that Covestro’s solution can greatly contribute to the sustainable development of the wind power industry”

The polyurethane wind turbine blade, from the spar cap to the shear web and the shell, is made entirely of polyurethane infusion resin, making it the first of its kind in the global wind power industry. Extensive static and dynamic fatigue tests are being carried out to evaluate the durability of the wind turbine blade before small-scale production commences in 2020.

The joint team from Covestro and LZ Blades is happy about the successful production of the rotor blade.

Decreased costs and increased benefits for wind power enterprises
Test results showed that the polyurethane resin displays better mechanical properties compared with traditional epoxy resin. As it does not require post-curing and has a lower viscosity and faster infusion speed, the polyurethane resin system can greatly improve the efficiency of blade production, thus increasing the competitiveness of blade manufacturers. In the end, the solution with the polyurethane resin is more cost competitive than the one with the epoxy resin.

In addition, Goldwind has optimized the structural design of the blade, giving better play to the advantages of polyurethane’s mechanical properties and infusion speed and ensuring the smooth production of the blade.

Birong Wen, head of Goldwind’s wind blade development team, said:

“Polyurethane is a very cost-effective material, and can thus provide great support for wind power enterprises when wind power prices will reach parity with thermal power after 2020. In the future, we will invest more in the development of new materials and explore how to apply these technologies to large-scale offshore blades to achieve greater competitiveness. This will help boost the upgrading of materials for wind turbine blades and the continuous innovation of the industry.”

Jitendra Bijlani, head of R&D from LZ Blades, said:

“The improvement of blade production efficiency by using polyurethane not only enhances the blade cost competitiveness, but also becomes the key to serve our esteemed customers with material technology flexibility. This keeps us ahead in an increasingly challenging market environment.”

With the rapid development of the wind power industry, larger wind turbine blades have become increasingly popular in the industry, resulting in higher requirements for various aspects of wind turbine manufacturing, including the infusion resin. As the inventor of polyurethane chemistry and a leader in its application, Covestro has been committed to providing innovative products and cost-effective integrated solutions for the wind power industry to ride the latest development trends. In further cooperation with industry partners, Covestro will continue to contribute to the efficient development of the wind power industry.

Companies: Covestro

Industries: Energy

Terms: Business, Innovations

This article has been edited by Basalt.Today
This article has been written on JEC Composites Magazine
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