By Meghan Collins | The University of Maine | Communications & Information Technology
Orono, Maine — The University of Maine Advanced Structures and Composites Center has been awarded $2.8 million from the U.S. Department of Energy Office of Energy Efficiency and Renewable Energy to develop a rapid, low-cost additive manufacturing — 3D printing — solution for fabricating large, segmented wind blade molds.
In addition, the UMaine Composites Center will collaborate on a $4 million award to Oak Ridge National Laboratory (ORNL) to apply robotic deposition of continuous reinforcing fibers in wind blades.
Currently, innovation in large wind blade technology is a costly and time-intensive process. Molds and tooling for large blades can cost upward of $10 million. The time to market of 16–20 months stifles innovation in this growing market.
“The University of Maine remains a leader in additive manufacturing and wind energy technology, and this funding will harness researchers’ expertise in both areas,” said Sens. Susan Collins and Angus King in a Jan. 28 announcement of the award. “We are thrilled that the Department of Energy continues to invest in UMaine’s cutting-edge research and prioritizes the advancement of our state’s clean energy economy and the creation of good-paying jobs.”
“Building on a decade plus of research excellence in nanocellulose, composites and wind blade testing, University of Maine researchers and students will apply this knowledge to additive manufacturing, transforming large wind blade development and accelerating innovation in this growing market,” said University of Maine President Joan Ferrini-Mundy. “I congratulate all of the UMaine researchers and students for continuing to advance transformational research to help grow Maine’s clean energy economy. We thank the Department of Energy for its partnership and our Congressional delegation for their continued interest and incredible support for this world-class research and development underway right here in Maine at our university.”
“Very large wind blade molds will be printed on the world’s largest polymer 3D printer located at the UMaine Composites Center using recyclable bio-based materials reinforced with wood,” said Habib Dagher, executive director of the Advanced Structures and Composites Center. “By combining cutting-edge 3D printing manufacturing with bio-based feedstocks, our team estimates that new blade development costs can be reduced by 25% to 50% and accelerated by at least 6 months. Molds produced using these materials can be ground up and reused in other molds, making them a more sustainable solution.”
UMaine is a world leader in cellulose nanofiber (CNF) technology, including development of nano- and micro-cellulose reinforced thermoplastic composites. These new bio-based materials promise mechanical properties similar to aluminum at lower fabricated costs.
Carbon fiber reinforced ABS thermoplastic feedstocks, which are widely used in large scale 3D printing, cost more than $5 per pound. By incorporating bio-based materials derived from wood, the cost of the feedstock can be reduced to less than $2 per pound.
The molds will incorporate 3D printed heating elements using a new technology developed at ORNL. Control of mold surface temperatures is a critical mold manufacturing requirement, and the new ORNL technology enables robotic deposition of heating elements, reducing mold fabrication time and cost.
“Oak Ridge National Laboratory will apply expertise in additive manufacturing, carbon fiber technology and materials science to advance the use of 3D printing in wind energy applications,” said ORNL’s Xin Sun, interim associate laboratory director for energy science and technology. “We look forward to collaborating with UMaine to optimize these clean energy technologies to benefit the environment and boost the economy.”
The outcome of the proposed research is to transform mold production as a key enabler for more rapid and more cost-effective large wind turbine blade development. TPI Composites and Siemens Gamesa (SGRE) are partnering with the UMaine Composites Center on the project. A successful demonstration will put both SGRE and TPI in a position to transition the additive manufacturing solution into practice.
SGRE is the world’s leading supplier of offshore wind turbines and TPI produces approximately 18% of the world’s wind blades. Ingersoll Machine Tools, the 3D printer manufacturer, and Techmer PM, the cellulosic-thermoplastic feedstock compounder, also are on the team, providing the ability to scale-up both equipment and feedstock production.
Researchers at the UMaine Composites Center on the project include Dagher, James Anderson, John Arimond and Doug Gardner.
About the University of Maine Advanced Structures and Composites Center
The University of Maine’s Advanced Structures and Composites Center is a world leader in composite materials R&D. Founded through the National Science Foundation in 1996, it is housed in a 100,000–square-foot laboratory with 260 employees. The center has received top international awards for its research, and has over 500 clients and partners worldwide. A number of private Maine businesses have spun off from the center’s research. The center pioneered the development of floating offshore wind turbines by designing and deploying the first grid-connected offshore wind turbine in the U.S. in 2013. The center houses the Alfond W2 (Wind-Wave) Ocean Engineering Laboratory, a unique facility with a high-accuracy wind generator over a multi-directional wave basin, as well as the Offshore Wind Laboratory, the second largest wind blade testing facility in the U.S. In 2019, the center commissioned the largest polymer 3D printer in the world. It won Guinness World Records for 3Dirigo, the largest 3D printed boat in the world, a 25-foot-long 5,000-pound patrol vessel which was printed in 72 hours.
About the University of Maine:
The University of Maine, founded in Orono in 1865, is the state’s land grant, sea grant and space grant university. It is located on Marsh Island in the homeland of the Penobscot Nation. As Maine’s flagship public university, UMaine has a statewide mission of teaching, research and economic development, and community service. UMaine is the state’s only public research university and among the most comprehensive higher education institutions in the Northeast. It attracts students from all 50 states and more than 75 countries. UMaine currently enrolls 11,741 undergraduate and graduate students who have opportunities to participate in groundbreaking research with world-class scholars. UMaine offers more than 100 degree programs through which students can earn master’s, doctoral or professional science master’s degrees, as well as graduate certificates. The university promotes environmental stewardship, with substantial efforts campuswide to conserve energy, recycle and adhere to green building standards in new construction. For more information about UMaine, visit umaine.edu.
Source: The University of Maine
