Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments
This content model summarizes laboratory testing data for the Oscilla Power Triton WEC conducted at 1:30 scale. The WEC was tested in large operational waves and in extreme wave conditions along the 1 in 50 year wave contour at the DoE reference location in Humbolt Bay, CA. The WEC was tested in both its operational configuration and its survival configuration. The aims of the dataset are (i) To demonstrate that the survival strategy developed for the Triton WEC improves survivability and reduces loads in extreme wave environments, and (ii) To determine the ultimate design loads for the WEC.
Citation Formats
Oscilla Power, Inc.. (2018). Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments [data set]. Retrieved from https://dx.doi.org/10.15473/1513777.
Mundon, Tim, Rosenberg, Brian. Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments. United States: N.p., 13 Mar, 2018. Web. doi: 10.15473/1513777.
Mundon, Tim, Rosenberg, Brian. Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments. United States. https://dx.doi.org/10.15473/1513777
Mundon, Tim, Rosenberg, Brian. 2018. "Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments". United States. https://dx.doi.org/10.15473/1513777. https://mhkdr.openei.org/submissions/302.
@div{oedi_6079, title = {Triton Point Absorber 1:30 Scale Tank Test Data for Extreme Wave Environments}, author = {Mundon, Tim, Rosenberg, Brian.}, abstractNote = {This content model summarizes laboratory testing data for the Oscilla Power Triton WEC conducted at 1:30 scale. The WEC was tested in large operational waves and in extreme wave conditions along the 1 in 50 year wave contour at the DoE reference location in Humbolt Bay, CA. The WEC was tested in both its operational configuration and its survival configuration. The aims of the dataset are (i) To demonstrate that the survival strategy developed for the Triton WEC improves survivability and reduces loads in extreme wave environments, and (ii) To determine the ultimate design loads for the WEC. }, doi = {10.15473/1513777}, url = {https://mhkdr.openei.org/submissions/302}, journal = {}, number = , volume = , place = {United States}, year = {2018}, month = {03}}
https://dx.doi.org/10.15473/1513777
Details
Data from Mar 13, 2018
Last updated Sep 28, 2023
Submitted Oct 1, 2018
Organization
Oscilla Power, Inc.
Contact
Tim Mundon
206.557.7032
Authors
Original Source
https://mhkdr.openei.org/submissions/302Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, wave energy, point absorber, survivability, design loads, survival configuration, WEC, wave, point, absorber, multi-mode, durability, tank test, lab test, technology, extreme wave environment, extreme condition, lab data, modeling, MATLAB, Oscilla PowerDOE Project Details
Project Name DE-FOA-0001310: Next Generation Marine Energy Systems - Durability & Survivability
Project Lead Bill McShane
Project Number EE0007346