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Influence of Heave Plate Topology on Reaction Force

Journal Article · · Ocean Engineering
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In this study, we explore the role of heave plate topology on fluid reaction forces using three, representative shapes: a hexagonal flat plate, a hexagonal conic with an open top, and the same with a closed top that encloses a fluid mass. We force each test article sinusoidally in a quiescent tank and decompose the reaction force using forms of the Morison equation for phase-invariant and phase-dependent parameterizations. We find that a flat plate generates 5.3 % more fluid reaction force than the open conic topology, and 21.4% more than the enclosed conic. Asymmetric topologies generate asymmetric reaction forces, but the magnitude of asymmetry is limited by nearly symmetric fluid inertia forces, which dominate over drag for these test articles. Additionally, we observe asymmetric vortex dynamics for the flat plate when the Keulegan-Carpenter number is between 1 and 2, accompanied by a shift in the phase of the peak force by of the oscillation period. As a consequence of this shift, the hydrodynamic coefficients estimated from the phase-dependent Morison equation decomposition are asymmetric, suggesting that phase-dependent representations may not provide physical insight in some hydrodynamic regimes.

Research Organization:
National Renewable Energy Lab. (NREL), Golden, CO (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE)
DOE Contract Number:
AC36-08GO28308
OSTI ID:
1832443
Report Number(s):
NREL/JA-5700-81523; MainId:82296; UUID:0031e684-8400-4da8-9594-4deb31696323; MainAdminID:63349
Journal Information:
Ocean Engineering, Vol. 241
Country of Publication:
United States
Language:
English

References (9)

Hydrodynamic Coefficients of Heave Plates, With Application to Wave Energy Conversion October 2018
Quantifying the global wave power resource August 2012
Forces on cylinders and plates in an oscillating fluid May 1958
Experimental investigation of the hydrodynamic characteristics of heave plates using forced oscillation July 2013
Fundamentals concerning wave loading on offshore structures December 1986
The Force Exerted by Surface Waves on Piles May 1950
Hydrodynamics of an asymmetric heave plate for a point absorber wave energy converter November 2020
Hydrodynamic performance of solid and porous heave plates July 2008
Low KC flow regimes of oscillating sharp edges I. Vortex shedding observation February 2003

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Related Subjects

TIDAL AND WAVE POWER
added mass
enclosed fluid
heave plates
hydrodynamic asymmetry
oscillatory flow
wave energy