Small-scale model tests of a rubber-tube wave energy converter with pneumatic power take-off
Small-scale model tests of a rubber-tube wave energy converter with pneumatic power take-off
The paper deals with a relatively new concept in wave-energy conversion systems: The Anaconda. This device consists basically of a distensible tube, made out of rubber material, which interacts with the incident waves in order to convey the absorbed energy to some form of power take-off (PTO). In the present case, the bulges inside the rubber tube drive a slug of water towards a vertical shaft referred to as a chimney. The oscillations of the water column inside the chimney induce a pressure oscillation in the pneumatic chamber above that activates an air-turbine. The Anaconda device has been studied extensively by experimental and theoretical means. However, so far, the pneumatic PTO for this device has only been examined within restrictive linear conditions. This study is about a series of 1:100 scale model tests of a freely floating Anaconda in a wave flume, under deep and intermediate water regular waves, for a device equipped with a non-linear PTO. In the model, the pneumatic chamber communicates with the atmosphere through an orifice. Three calibrated orifices of different diameters have been tested. The pressure across the orifice is determined from measurements taken of the amplitude of water column oscillations in the system, by applying Bernoulli's law. These properties are subsequently used for calculating the power captured from the incident waves. Estimates of power output and energy capture width are presented, as functions of wave frequency, while the device interacts with linear and second-order waves. Our estimates are finally extrapolated to predict prototype performance.
Distensible tube, Ocean energy, Pneumatic power take-off, Wave-energy converter
The American Society of Mechanical Engineers
Mendes, A.C.
2d71fac4-b3ba-408e-8927-bac3f9f19c65
Paredes, L.M.A.
a53137b9-454e-496a-b8b5-c75b9446b69c
Gil, F.A.S
5cb09121-c270-4968-9b9f-dded0c00bf85
Chaplin, J.R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f
2014
Mendes, A.C.
2d71fac4-b3ba-408e-8927-bac3f9f19c65
Paredes, L.M.A.
a53137b9-454e-496a-b8b5-c75b9446b69c
Gil, F.A.S
5cb09121-c270-4968-9b9f-dded0c00bf85
Chaplin, J.R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f
Mendes, A.C., Paredes, L.M.A., Gil, F.A.S and Chaplin, J.R.
(2014)
Small-scale model tests of a rubber-tube wave energy converter with pneumatic power take-off.
In Ocean Renewable Energy.
vol. 9A,
The American Society of Mechanical Engineers.
10 pp
.
(doi:10.1115/OMAE2014-23452).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The paper deals with a relatively new concept in wave-energy conversion systems: The Anaconda. This device consists basically of a distensible tube, made out of rubber material, which interacts with the incident waves in order to convey the absorbed energy to some form of power take-off (PTO). In the present case, the bulges inside the rubber tube drive a slug of water towards a vertical shaft referred to as a chimney. The oscillations of the water column inside the chimney induce a pressure oscillation in the pneumatic chamber above that activates an air-turbine. The Anaconda device has been studied extensively by experimental and theoretical means. However, so far, the pneumatic PTO for this device has only been examined within restrictive linear conditions. This study is about a series of 1:100 scale model tests of a freely floating Anaconda in a wave flume, under deep and intermediate water regular waves, for a device equipped with a non-linear PTO. In the model, the pneumatic chamber communicates with the atmosphere through an orifice. Three calibrated orifices of different diameters have been tested. The pressure across the orifice is determined from measurements taken of the amplitude of water column oscillations in the system, by applying Bernoulli's law. These properties are subsequently used for calculating the power captured from the incident waves. Estimates of power output and energy capture width are presented, as functions of wave frequency, while the device interacts with linear and second-order waves. Our estimates are finally extrapolated to predict prototype performance.
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More information
Published date: 2014
Venue - Dates:
ASME 2014 33rd International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2014, , San Francisco, United States, 2014-06-08 - 2014-06-13
Keywords:
Distensible tube, Ocean energy, Pneumatic power take-off, Wave-energy converter
Organisations:
Civil Maritime & Env. Eng & Sci Unit
Identifiers
Local EPrints ID: 410851
URI: http://eprints.soton.ac.uk/id/eprint/410851
PURE UUID: f431c478-831f-406f-a49b-354b2472466b
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Date deposited: 09 Jun 2017 09:45
Last modified: 16 Mar 2024 03:13
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Contributors
Author:
A.C. Mendes
Author:
L.M.A. Paredes
Author:
F.A.S Gil
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