GE awarded DoE grant to research 3D printing of wind turbine blades

GE Research, GE Renewable Energy, and LM Wind Power, a GE Renewable Energy business were recently selected by the US Department of Energy (DoE) to research the design and manufacture of 3D printed wind turbine blades.

The GE business units will partner with the Oakridge National Lab and the National Renewable Energy Lab on a 25-month $6.7 million project to develop and demonstrate an integrated additive manufacturing process for novel high-performance blade designs for the future of large rotors.

The project will deliver a full-size blade tip ready to be structurally tested, as well as three blade tips that will be installed on a wind turbine. The proposed project will focus on low-cost thermoplastic skin coupled with printed reinforcement.

The aim of the project is to advance the competitiveness of both onshore and offshore wind energy when commercialised, by lowering manufacturing cost, increasing supply chain flexibility and providing lighter weight blades made with more recyclable materials.

Design cycle time is also reduced enabling more wind farm optimisation, which will yield further increases in farm annual energy production and reductions in the levelized cost of energy.

Torben K. Jacobsen, senior director advanced technology systems and Chief Engineering, LM Wind Power: “This grant will greatly help LM Wind Power to accelerate our advanced design and manufacturing technology program. It is also a clear acknowledgement of the advanced technical engineering capabilities in our two technology hubs in Greenville, SC and New Orleans, LA. We look forward to work with our partners in this program and deliver tangible outcomes including the use of recyclable materials and reduced manufacturing waste.”

Matteo Bellucci, GE Renewable Energy advanced manufacturing leader, said: “We are excited to partner with the DOE Advanced Manufacturing Office, as well as with our world’s class partners to introduce a highly innovative Advanced Manufacturing and Additive Process to completely revolutionize the state of the art of wind blade manufacturing. Additive Manufacturing can bring a step change in cost and performance competitiveness in the wind industry and help GE Renewable Energy support our customers in driving the energy transition farther and faster.”

This article was originally posted on Power Engineering International and was republished with permission.

The post GE awarded DoE grant to research 3D printing of wind turbine blades appeared first on Renewable Energy World.


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