TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter
Through the TEAMER program, Sandia National Laboratories (SNL) collaborated with IDOM Incorporated to study their MARMOK-Oscillating Water Column (MARMOK-OWC) wave energy conversion device. The study yielded a quantitative understanding of hydrodynamic pressures on the oscillating water column (OWC) device surfaces, the mooring tensions, and the dynamic performance of the device under extreme ocean wave conditions.
This project utilized a comprehensive multi-phase Navier-Stokes flow solver with an overset body-fit mesh to predict fluid velocities and hydrodynamic forces on the MARMOK-OWC device. Computational Fluid Dynamics (CFD) analysis were conducted using OpenFOAM. This data includes the OpenFOAM cases (setup and data) to run the extreme events developed during the project.
This project is part of the TEAMER RFTS 4 (request for technical support) program.
Citation Formats
IDOM Incorporated. (2024). TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter [data set]. Retrieved from https://mhkdr.openei.org/submissions/590.
de Miguel Para, Borja, Chartrand, Chris, and Nguyen, Nhu. TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter. United States: N.p., 27 Dec, 2024. Web. https://mhkdr.openei.org/submissions/590.
de Miguel Para, Borja, Chartrand, Chris, & Nguyen, Nhu. TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter. United States. https://mhkdr.openei.org/submissions/590
de Miguel Para, Borja, Chartrand, Chris, and Nguyen, Nhu. 2024. "TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter". United States. https://mhkdr.openei.org/submissions/590.
@div{oedi_590, title = {TEAMER - Extreme Events Modeling for the MARMOK-OWC Wave Energy Converter}, author = {de Miguel Para, Borja, Chartrand, Chris, and Nguyen, Nhu.}, abstractNote = {Through the TEAMER program, Sandia National Laboratories (SNL) collaborated with IDOM Incorporated to study their MARMOK-Oscillating Water Column (MARMOK-OWC) wave energy conversion device. The study yielded a quantitative understanding of hydrodynamic pressures on the oscillating water column (OWC) device surfaces, the mooring tensions, and the dynamic performance of the device under extreme ocean wave conditions.
This project utilized a comprehensive multi-phase Navier-Stokes flow solver with an overset body-fit mesh to predict fluid velocities and hydrodynamic forces on the MARMOK-OWC device. Computational Fluid Dynamics (CFD) analysis were conducted using OpenFOAM. This data includes the OpenFOAM cases (setup and data) to run the extreme events developed during the project.
This project is part of the TEAMER RFTS 4 (request for technical support) program.}, doi = {}, url = {https://mhkdr.openei.org/submissions/590}, journal = {}, number = , volume = , place = {United States}, year = {2024}, month = {12}}
Details
Data from Dec 27, 2024
Last updated Jan 27, 2025
Submitted Dec 31, 2024
Organization
IDOM Incorporated
Contact
Borja de Miguel
Authors
Keywords
MHK, Marine, Hydrokinetic, energy, power, CFD, OWC, Wave Energy, Extreme Events, TEAMER, RFTS 4, WEC, wave energy converter, MARMOK-OWC WEC, quantitative, hydrualic pressure, oscillating water column, mooring tensions, performance, hydrodynamic forces, Computational Fluid Dynamics, CFD analysis, OpenFOAM, Navier-Stokes flow solverDOE Project Details
Project Name Testing Expertise and Access for Marine Energy Research
Project Lead Lauren Ruedy
Project Number EE0008895
