Home Business Oscilla Power Successfully Launches Demonstration Scale TritonTM Wave Energy Converter (WEC) on Maine Coast

Oscilla Power Successfully Launches Demonstration Scale TritonTM Wave Energy Converter (WEC) on Maine Coast

by Asia Insider

The focus of the test is to determine load capacity and survivability of full-scale (1 MW) WEC in actual ocean environment

Oscilla Power’s Wave Energy Converter Tested Off the Coast of Maine

Wave energy technology developer Oscilla Power, the University of Maine’s Advanced Structures & Composites Center (ASCC) and the Maine Maritime Academy successfully deployed a 1/6 scale prototype of Oscilla’s 1 MW Triton™ wave energy converter (WEC) in Castine Harbor to confirm the design and performance of Triton in a real-world operating environment.
Wave energy technology developer Oscilla Power, the University of Maine’s Advanced Structures & Composites Center (ASCC) and the Maine Maritime Academy successfully deployed a 1/6 scale prototype of Oscilla’s 1 MW Triton™ wave energy converter (WEC) in Castine Harbor to confirm the design and performance of Triton in a real-world operating environment.

CASTINE, Maine, Dec. 05, 2023 (GLOBE NEWSWIRE) — Wave energy technology developer Oscilla Power, the University of Maine’s Advanced Structures & Composites Center (ASCC) and the Maine Maritime Academy successfully deployed a 1/6 scale prototype of Oscilla’s 1 MW Triton™ wave energy converter (WEC) in Castine Harbor. The goal of this project is to confirm the design and performance of Triton in a real-world operating environment, helping to inform the ongoing engineering design of Oscilla’s full-scale, 1 MW Triton WEC in 2024.

Due to the unique wave conditions in Castine the 1/6 scaled unit will operate in the same manner as a full-scale unit during this 12-week test. Winter wave conditions in Castine are approximately 1/6 the size of waves experienced on the U.S. West Coast, and therefore provide an ideal representative ocean environment to test and evaluate the scaled Triton system.

A key goal of this testing is to be able demonstrate the ability of the WEC to survive extreme weather events through the use of a unique submerging ability which will enable the Triton to withstand even the harshest wave events. The testing will also be used to enable Oscilla to accurately predict the power that the full-scale system will generate in different wave conditions.

“While we have excellent design and computer-driven simulations, there is no substitute for running the unit through its paces in a real operating environment,” said Tim Mundon, Ph.D., Chief Technology Officer for Oscilla Power. “Thanks to the partnership with Maine Maritime Academy and the University of Maine, we’re able to complete this testing to validate our assumptions and numerical models to ensure our commercial production unit will perform as designed. This is a critical milestone in the design.”

Oscilla Power’s Triton wave energy converter will make ocean wave energy a viable resource that can complement solar and wind in many locations worldwide including the U.S. West Coast. The innovative design of the Triton overcomes the main limitations that have prevented ocean wave energy from being adopted previously by offering increased levels of energy capture, conversion efficiency, and survivability in the harsh ocean environment.

Building on nearly three decades of research and development, the University of Maine’s Advanced Structures and Composites Center (ASCC) was charged with the structural design and construction of a submerged concrete ring that serves as a heave plate for the WEC, as well as providing support for permitting, deployment, monitoring, and decommissioning for the project. This is the fourth technology that has been demonstrated and studied by the ASCC in the Castine location.

“We are pleased to support Oscilla Power by designing and fabricating the wave energy converter’s hull at UMaine’s Advanced Structures and Composites Center. This deployment marks an important step in helping develop local clean energy sources and local jobs,” said Anthony Viselli, Ph.D., PE, Assistant Director for Ocean Energy and Engineering at the ASCC.

Maine Maritime Academy’s world class waterfront and generations of leadership on the water have ensured that the prototype was successfully launched and secured in its testing site. Without their expertise, offshore energy testing and implementation would not be possible. Through this deployment and testing, they are training a new era of waterfront workforce in Maine that will continue to bolster the state’s economy.

“Partnering with Oscilla Power and the University of Maine to test technology at scale is vital to our contributions for workforce development and Mariner training at MMA,” said Keith Williamson, Ph.D., Provost, Maine Maritime Academy. “MMA’s waterfront campus gives our state a unique advantage to test and evaluate ocean technologies that will define our future workforce.”

The U.S. Department of Energy (DOE) through its Water Power Technologies Office has been a strong supporter of Oscilla Power as well as the overall wave power industry. DOE officials were onsite for the launch.

“Marine energy technologies have tremendous promise to provide clean, reliable power to remote and coastal communities as well as for offshore work,” said Jennifer Garson, Director, U.S. Department of Energy’s Water Power Technologies Office. “It is exciting to see Oscilla Power test the scaled prototype of its Triton wave energy converter in real world conditions and take an important step toward realizing the potential of marine energy.”

About Oscilla Power
Founded in 2009 in Seattle, Oscilla Power develops novel wave energy systems that produce power at a lower levelized cost than traditional wave energy systems which are cost-competitive with incumbent systems. Its core Triton wave energy platform is engineered to produce renewable power at a levelized cost that is competitive with current clean energy costs. Oscilla Power is producing two wave energy systems with this multi-mode architecture: the Triton and the Triton-C. The Triton is a 1 MW rated power system that is designed to be installed in large arrays to provide utility-scale power while the Triton-C is a 100 kW system designed for isolated power-at-sea applications or remote communities. More information can be found at www.oscillapower.com.

About University of Maine Advanced Structures and Composites Center
The Advanced Structures and Composites Center is a world-leading interdisciplinary center for research, education and economic development, encompassing material sciences, advanced manufacturing and engineering of composites and structures. Housed in a 100,000-square-foot ISO-17025-accredited facility, the center has been recognized nationally and internationally for cutting-edge research programs leading and impacting new industries, including offshore wind and marine energy, civil infrastructure, biobased composites, large-scale 3D printing, soldier protection systems and innovative defense-related applications.

About Maine Maritime Academy
Maine Maritime Academy is a co-educational, public college on the coast of Maine offering 22 programs of study in engineering, management, science, and transportation to promote the maritime interests of the United States. The college serves approximately 950 undergraduate and graduate students in career-oriented degree programs. The job placement rate for MMA graduates is approximately 90 percent within 90 days of graduation with very high paying jobs. The college is consistently recognized for providing a high-value education by organizations such as the Brookings Institution, U.S. News and World Report, and Money Magazine. The 2022 Report by Georgetown University ranked MMA #1 among all public colleges for return on investment for low-income students at public bachelor’s degree institutions. For more information, visit www.mainemaritime.edu.

A photo accompanying this announcement is available at https://www.globenewswire.com/NewsRoom/AttachmentNg/10d93598-c493-4e2d-8dde-0bd72b4e5509

CONTACT: Media Contacts John Williams, Scoville PR for Oscilla Power 206-660-5503, jwilliams@scovillepr.com Taylor Ward, University of Maine 207.852.4530, taylor.ward@composites.maine.edu Kate Noel, Maine Maritime Academy 484.433.2205, kate.noel@mma.edu   

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