Oregon State University to Move Forward with Wave Energy Project

On Monday, March 1, federal energy regulators gave Oregon State University permission to move forward with an offshore wave energy testing facility.

The PacWave South project is meant to further the development of wave energy technology, which uses the motion of water and currents to produce electricity. Waves off the coast of Oregon have been discovered to have a much higher wave energy generation potential than nearby California or Washington, at least by coastal area. The Oregon Department of Energy estimates that the near-shore waves could eventually be able to generate power for 28 million homes every year.

Wave energy testing facility

The university project must pass a final review period before it can begin construction, but it has already received a license from the Federal Energy Regulatory Commission. “It’s huge,” said Burke Hales, the OSU project’s chief scientist. “It’s the first license of its type to be issued in the United States.”

According to the project’s website, PacWave South will be a wave energy test facility that is grid-connected, accredited, and pre-permitted. Because the entire regulatory process is being done before construction starts, it will be ready to test all expected types of wave energy devices, save millions of dollars, and allow development and optimization of those designs to move more quickly.

The construction will cover two square nautical miles of ocean and include four ocean berths connected to shore by a 7-mile cable route. Infrastructure will include data cables, electric cables, and a grid connection station on land, giving companies easy and immediate access to the wave energy converters. Across its four berths, it will be able to test different technologies simultaneously, and it has space for up to 20 devices.

Oregon State University is developing the project with the U.S. Department of Energy, the State of Oregon, and local stakeholders.

“We hope to be moving forward this summer with groundbreaking for building our shoreside facility,” said Hales. He also said that the underground and sub-surface work for running transmission lines should begin this year, also. They aim to begin installing the test facility’s offshore components in 2022.

About the Author

Matt Jones is senior editor of Spaces4Learning. He can be reached at [email protected].

Featured

  • golden trophies with falling confetti

    Spaces4Learning Launches 2026 New Product Awards

    Spaces4Learning is happy to announce that we’re now accepting entries for the 2026 New Product Awards! The awards program recognizes the outstanding product development achievements of manufacturers and suppliers whose products or services are considered particularly noteworthy.

  • Designing Third Spaces That Do What AI Can't

    In 2026, education is evolving faster than ever. With AI reshaping everything from lesson planning to personalized instruction, schools and universities are turning their attention to what AI can’t replicate: spaces that foster collaboration, community, and creativity.

  • Western Kentucky University, Gilbane Announce “Elevate WKU” Partnership

    Western Kentucky University in Bowling Green, Ky., recently announced that it has reached the financial close on a on a public-private partnership (P3) with Gilbane Development, according to a news release.

  • Deferred Maintenance Issues Growing at Universities, Gordian Reports

    U.S. colleges and universities are falling increasingly behind on facilities maintenance and repair, according to Gordian’s 13th annual State of Facilities in Higher Education report. The deferred capital renewal burden has reached $156 per gross square foot, an 8% increase over the previous year.