Abstract
While the field of wave energy has been the subject of numerical simulation, scale model testing, and precommercial project testing for decades, wave energy technologies remain in the early stages of development and must continue to prove themselves as a promising modern renewable energy field. A wave energy converter (WEC) concept currently being explored is the variable-geometry WEC (VGWEC), which aims to add an extra control option to WEC design. VGWECs attempt to incorporate controllable geometric features to adjust the floating body hydrodynamics to favor either power absorption, load shedding, or other operational goals. These variable geometry components have been proposed to be controlled on a sea-state-to-sea-state or wave-to-wave time scale depending on the force (or torque) and bandwidth limitations of the actuators required to manipulate just the controllable geometric hull features. Having control over both the WEC geometry components and the power takeoff (PTO) offers the potential to improve overall system performance and reliability if a cost-effective solution can be found for a given WEC architecture. This paper will present the recent developments and results of a VGWEC concept that incorporates variable-geometry modules into a two-body WEC. In the proposed VGWEC concept, the variable-geometry modules consist of air-inflatable bags in the surface float and a water inflatable ring in the subsurface body. The surface float is tethered directly to the subsurface body through tether lines, each connected to a separate PTO. Adjusting the geometry of both the surface and subsurface bodies along with the PTO coefficients can maximize power in design sea states while reducing motion response and PTO forces when transitioning to sea states where rated power is reached and load shedding is prioritized. The ability to transition between operating condition is expected to increase the sea state operational map and power capacity.
Original language | American English |
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Number of pages | 11 |
DOIs | |
State | Published - 2023 |
Event | ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering - Melbourne, Australia Duration: 11 Jun 2023 → 16 Jun 2023 |
Conference
Conference | ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering |
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City | Melbourne, Australia |
Period | 11/06/23 → 16/06/23 |
Bibliographical note
See NREL/CP-5700-85028 for preprintNREL Publication Number
- NREL/CP-5700-87982
Keywords
- geometry control
- hydrodynamics
- wave energy converter