An oscillating water column device enables the conversion of wave energy into electrical energy via wave interaction with a semi-submerged chamber coupled with a turbine for power take off. This present work concentrates on the wave interaction with the semi-submerged chamber, whereby a shore based oscillating water column (OWC) is studied experimentally to examine energy efficiencies for power take-off. The wave environment considered comprises plane progressive waves of steepnesses ranging from kA=0.01 to 0.22 and water depth ratios varying from kh=0.30 to 3.72, where k, A, and h denote the wave number, wave amplitude, and water depth, respectively. The key feature of this experimental campaign is a focus on the influence of front wall geometry on the OWC’s performance. More specifically, this focus includes: front wall draught, thickness, and aperture shape of the submerged front wall. We make use of a two-dimensional inviscid theory for an OWC for comparative purposes and to explain trends noted in the experimental measurements. The work undertaken here has revealed a broad banded efficiency centered about the natural frequency of the OWC. The magnitude and shape of the efficiency curves are influenced by the geometry of the front wall. Typical peak magnitude resonant efficiencies are in the order of 70%.

1.
Evans
,
D. V.
, 1981, “
Power From Water Waves
,”
Annu. Rev. Fluid Mech.
0066-4189,
13
, pp.
157
187
.
2.
Evans
,
D. V.
, 1978, “
The Oscillating Water Column Wave Energy Device
,”
J. Inst. Math. Appl.
0020-2932,
22
, pp.
423
433
.
3.
Lamb
,
H.
, 1932,
Hydrodynamics
, 6th ed.,
Dover Publications
, New York.
4.
Evans
,
D. V.
, 1982, “
Wave-power Absorption by Systems of Oscillating Surface Pressure Distributions
,”
J. Fluid Mech.
0022-1120,
114
, pp.
481
499
.
5.
Sarmento
,
A. J. N. A.
, and
Falcão
,
A. F. de O.
, 1985, “
Wave Generation by an Oscillating Surface-pressure and its Application in Wave-Energy Extraction
,”
J. Fluid Mech.
0022-1120,
150
, pp.
467
485
.
6.
Evans
,
D. V.
, and
Porter
,
R.
, 1995, “
Hydrodynamic Characteristics of an Oscillating Water Column Wave Energy Device
,”
Appl. Ocean. Res.
0141-1187,
17
, pp.
155
164
.
7.
Vinje
,
T.
, 1991, “
An Approach to the Nonlinear Solution of the Oscillating Water Column
,”
Appl. Ocean. Res.
0141-1187,
13
, pp.
18
36
.
8.
Clẽment
,
A. H.
, 1997, “
Dynamic Nonlinear Response of OWC Wave Energy Devices
,”
Int. J. Offshore Polar Eng.
1053-5381,
7
(
2
), pp.
154
159
.
9.
Lighthill
,
M. J.
, 1979, “
Two-Dimensional Analyses Related to Wave-energy Extraction by Sub-merged Resonant Ducts
,”
J. Fluid Mech.
0022-1120,
91
, pp.
253
317
.
10.
Lee
,
C. H.
,
Newman
,
J. N.
, and
Nielsen
,
F.
, 1996, “
Wave Interactions With an Oscillating Water Column
,” in
Proc. 6th Intl. Off. Polar Eng. Conf.
, Vol.
1
, pp.
82
90
.
11.
Wang
,
D. J.
,
Katory
,
M.
, and
Li
,
Y. S.
, 2002, “
Analytical and Experimental Investigation on the Hydrodynamic Performance of Onshore Wave Power Devices
,”
Ocean Eng.
0029-8018,
29
, pp.
871
885
.
12.
Brito-Melo
,
A.
, and
Sarmento
,
A. J. N. A.
, 2002, “
Numerical Modeling of Wave-power Plants of the Oscillating Water Column Type
,” in International Series on Advances in Boundary Elements, Vol.
13
, pp.
25
34
.
13.
Porter
,
R.
, and
Evans
,
D. V.
, 1995, “
Complementary Approximations to Wave Scattering by Vertical Barriers
,”
J. Fluid Mech.
0022-1120,
294
, pp.
155
180
.
14.
Newman
,
J. N.
, 1976, “
Interaction of Stationary Vessels With Regular Waves
,”
Proc. 11th Symp. on Naval Hydrodynamics
,
R. E. D.
Bishop
,
A. G.
Parkinson
, and
W. G.
Price
, eds.
, Mechanical Engineering Publications Ltd., pp.
491
501
.
15.
Evans
,
D. V.
, 1976, “
A Theory for Wave Power Absorption by Oscillating Bodies
,”
J. Fluid Mech.
0022-1120,
77
, pp.
1
25
.
16.
Evans
,
D. V.
, 1976, “
A Theory for Wave Power Absorption by Oscillating Bodies
,”
Proc. 11th Symp. on Naval Hydrodynamics
,
R. E. D.
Bishop
,
A. G.
Parkinson
, and
W. G.
Price
, eds.,
Mechanical Engineering Publications Ltd.
, pp.
503
515
.
17.
Mei
,
C. C.
, 1976, “
Power Extraction From Water Waves
,”
J. Ship Res.
0022-4502,
20
, pp.
63
66
.
You do not currently have access to this content.