Abstract
Increasingly, focused waves are used as a design method to predict extreme loads for offshore structures, such as wave energy converters (WECs). However, the ability of computational methods to accurately simulate the prescribed focused waves and resulting wave structure interactions are not well-validated. As a participant in the Collaborative Computational Project in Wave Structure Interaction Blind Test Series 2, this study uses two computational fluid dynamics methods, WEC-Sim and STAR-CCM+, to evaluate three focused waves on two WEC-like bodies. WEC-Sim is a computationally efficient, midfidelity model based on linearized potential flow theory. STAR-CCM+ is a high-fidelity, three-dimensional, unsteady, Reynolds-averaged Navier-Stokes-based model. The two geometries considered are a hemispherical buoy and a cylindrical moon pool. The experimentally measured focused waves are reproduced in both codes, and the simulated displacements and mooring loads are obtained for each of the hydrodynamic bodies. The resulting STAR-CCM+ generated focused waves have approximately the same accuracy, in comparison to the analytic solution, as the experimentally generated focused waves. And, the WEC-Sim and STAR-CCM+ simulated displacements and mooring loads are, on average, within 5% of each other.
Original language | American English |
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Number of pages | 13 |
State | Published - 2019 |
Event | European Wave and Tidal Energy Conference - Napoli, Italy Duration: 1 Sep 2019 → 6 Sep 2019 |
Conference
Conference | European Wave and Tidal Energy Conference |
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City | Napoli, Italy |
Period | 1/09/19 → 6/09/19 |
NREL Publication Number
- NREL/CP-5000-73861
Keywords
- displacement
- simulated
- wave energy converter
- WEC