DE-EE0008267 Final Public Technical Report

Awaiting curation License 

Project DE-EE0008627 (Project) aimed to design, build, and test a novel, low-power wave power system (WPS) for remote, non-grid applications. Over the duration of the Project, the system design was expanded to include energy storage and the ability to support external assets ? a groundbreaking innovation that improved the overall state of the art and helped establish a novel market for wave energy technologies. Dual-use features and functionality built into this prototype were added later in the process and were based on feedback from a wide range of maritime customers and suppliers. The resulting novel solution was the SeaRAY Autonomous Offshore Power System (AOPS), a fully integrated offshore power and data communications mini-grid intended to lower the cost, complexity, and carbon-intensity of current offshore operations and enable new, robust capabilities not possible today.

Citation Formats

TY - DATA AB - Project DE-EE0008627 (Project) aimed to design, build, and test a novel, low-power wave power system (WPS) for remote, non-grid applications. Over the duration of the Project, the system design was expanded to include energy storage and the ability to support external assets ? a groundbreaking innovation that improved the overall state of the art and helped establish a novel market for wave energy technologies. Dual-use features and functionality built into this prototype were added later in the process and were based on feedback from a wide range of maritime customers and suppliers. The resulting novel solution was the SeaRAY Autonomous Offshore Power System (AOPS), a fully integrated offshore power and data communications mini-grid intended to lower the cost, complexity, and carbon-intensity of current offshore operations and enable new, robust capabilities not possible today. AU - Hammagren, Erik A2 - Zhang, Zhe A3 - Terrasa, Kristi DB - Marine and Hydrokinetic Data Repository DP - Open EI | National Renewable Energy Laboratory DO - KW - MHK KW - Marine KW - Hydrokinetic KW - energy KW - power KW - wave energy KW - deployment KW - SeaRAY KW - wave energy converter KW - wave power system KW - AOPS KW - Autonomous KW - Offshore Power System KW - open-water testing LA - English DA - 2025/06/26 PY - 2025 PB - Columbia Power Technologies, Inc. T1 - DE-EE0008267 Final Public Technical Report UR - https://mhkdr.openei.org/submissions/639 ER -
Export Citation to RIS
Hammagren, Erik, et al. DE-EE0008267 Final Public Technical Report . Columbia Power Technologies, Inc., 26 June, 2025, Marine and Hydrokinetic Data Repository. https://mhkdr.openei.org/submissions/639.
Hammagren, E., Zhang, Z., & Terrasa, K. (2025). DE-EE0008267 Final Public Technical Report . [Data set]. Marine and Hydrokinetic Data Repository. Columbia Power Technologies, Inc.. https://mhkdr.openei.org/submissions/639
Hammagren, Erik, Zhe Zhang, and Kristi Terrasa. DE-EE0008267 Final Public Technical Report . Columbia Power Technologies, Inc., June, 26, 2025. Distributed by Marine and Hydrokinetic Data Repository. https://mhkdr.openei.org/submissions/639
@misc{MHKDR_Dataset_639, title = {DE-EE0008267 Final Public Technical Report }, author = {Hammagren, Erik and Zhang, Zhe and Terrasa, Kristi}, abstractNote = {Project DE-EE0008627 (Project) aimed to design, build, and test a novel, low-power wave power system (WPS) for remote, non-grid applications. Over the duration of the Project, the system design was expanded to include energy storage and the ability to support external assets ? a groundbreaking innovation that improved the overall state of the art and helped establish a novel market for wave energy technologies. Dual-use features and functionality built into this prototype were added later in the process and were based on feedback from a wide range of maritime customers and suppliers. The resulting novel solution was the SeaRAY Autonomous Offshore Power System (AOPS), a fully integrated offshore power and data communications mini-grid intended to lower the cost, complexity, and carbon-intensity of current offshore operations and enable new, robust capabilities not possible today.}, url = {https://mhkdr.openei.org/submissions/639}, year = {2025}, howpublished = {Marine and Hydrokinetic Data Repository, Columbia Power Technologies, Inc., https://mhkdr.openei.org/submissions/639}, note = {Accessed: 2025-07-01} }

Details

Data from Jun 26, 2025

Last updated Jul 1, 2025

Submitted Jul 1, 2025

Organization

Columbia Power Technologies, Inc.

Contact

Bradford Lamb

434.212.2704

Authors

Erik Hammagren

Columbia Power Technologies Inc.

Zhe Zhang

Columbia Power Technologies Inc.

Kristi Terrasa

Columbia Power Technologies Inc.

DOE Project Details

Project Name DESIGN, BUILD, AND TEST OF NOVEL, REMOTE, AND LOW-POWER WAVE ENERGY CONVERTER FOR NON-GRID APPLICATIONS

Project Lead Ben Goclano

Project Number EE0008627

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