Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.

The hydrodynamic properties of a horizontal cylinder which is free to pitch about an off-centred axis are studied and used to derive the equations of motion of a wave energy converter which extracts energy from incoming sea waves with a linear power-take-off mechanism. The present work follows from...

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Bibliographic Details
Main Author: Lucas, Jorge
Other Authors: Salter, Stephen, Taylor, Jamie, Bryden, Ian, Engineering and Physical Sciences Research Council (EPSRC)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: The University of Edinburgh 2011
Subjects:
wave energy
wave energy converter
Edinburgh duck
hydrodynamic force on cylinders
WAMIT
multibody
Arctic
Online Access:http://hdl.handle.net/1842/5679
id ftunivedinburgh:oai:era.ed.ac.uk:1842/5679
record_format openpolar
spelling ftunivedinburgh:oai:era.ed.ac.uk:1842/5679 2023-07-30T04:00:07+02:00 Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis. Lucas, Jorge Salter, Stephen Taylor, Jamie Bryden, Ian Engineering and Physical Sciences Research Council (EPSRC) 2011-11-22 application/pdf http://hdl.handle.net/1842/5679 en eng The University of Edinburgh J. Lucas, J. Cruz, S. H. Salter, J. Taylor, and I. Bryden. Update on the modelling of a 1:33 scale model of a modified edinburgh duck wec. In Proceedings of the 7th European Wave and Tidal Energy Conference, page 9, Porto, Portugal, September 2007. J. Lucas, J. Cruz, S. H. Salter, J. Taylor, and I. Bryden. Update on the design of a 1:33 scale model of a modified edinburgh duck wec. In Proceedings of Offshore Mechanics and Arctic Engineering 2008, page 11, Estoril, Portugal, June 2008. J. Lucas, S. H. Salter, J. Cruz, J. Taylor, and I. Bryden. Performace optimisation of a modified duck through optimal mass distribution. In Proceedings of the 8th European Wave and Tidal Energy Conference, page 10, Uppsala, Sweden, September 2009. R. Pascal, J. Lucas, D. Ingram, and I. Bryden. Assessing and improving the edinburgh curved wave tank. In Proceedings of the Nineteenth (2009) International Offshore and Polar Engineering Conference, pages 269–275, Osaka,Japan, June 2009. S. H. Salter, J. Cruz, J. Lucas, and R. Pascal. Wave powered desalination. In International Conference on Integrated Sustainable Energy Resources in Arid Regions, Abu Dhabi, 2007. http://hdl.handle.net/1842/5679 wave energy wave energy converter Edinburgh duck hydrodynamic force on cylinders WAMIT multibody Thesis or Dissertation Doctoral PhD Doctor of Philosophy 2011 ftunivedinburgh 2023-07-09T20:30:45Z The hydrodynamic properties of a horizontal cylinder which is free to pitch about an off-centred axis are studied and used to derive the equations of motion of a wave energy converter which extracts energy from incoming sea waves with a linear power-take-off mechanism. The present work follows from a recent study which compared the performance of an off-centred cylinder with those of the Edinburgh Duck wave energy converter. The small decrease in performance found is offset by a reduction in the likely costs associated with the manufacturing of the cylindrical cam compared with those of the asymmetric profile. As part of the survivability strategy in very energetic seas-states it had been planned to completely submerge the device so as to reduce the mooring forces. However, experiments with scale models show that a good absorption capacity is retained even when fully-submerged. The hydrodynamic properties of a horizontal cylinder that pierces the free-surface and of one that is fully submerged are therefore of central concern in this study. These properties are well known for the case of very long cylinders but they are now found for cylinders with different widths, drafts, submergence levels and water-depths. The hydrodynamic forces and moments at the off-centred axis are, furthermore, derived through the application of transformation formulae. The equation of motion of the off-centred cylinder is derived for one degree of freedom and its performance as a wave energy converter is analysed. A relationship which relates the resonance of the device with the location of the off-centred axis and its mass distribution is derived and used to optimize the design for average sea conditions attained at a real location. Design cases associated with three diameters of the cylinder are looked into detail for both a fully-submerged and free-surface piercing cylinder. The one degree of freedom model is extended to include a multi-body which has three degrees of freedom in order to describe the dynamics of a proposed wave ... Doctoral or Postdoctoral Thesis Arctic Edinburgh Research Archive (ERA - University of Edinburgh)
institution Open Polar
collection Edinburgh Research Archive (ERA - University of Edinburgh)
op_collection_id ftunivedinburgh
language English
topic wave energy
wave energy converter
Edinburgh duck
hydrodynamic force on cylinders
WAMIT
multibody
spellingShingle wave energy
wave energy converter
Edinburgh duck
hydrodynamic force on cylinders
WAMIT
multibody
Lucas, Jorge
Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
topic_facet wave energy
wave energy converter
Edinburgh duck
hydrodynamic force on cylinders
WAMIT
multibody
description The hydrodynamic properties of a horizontal cylinder which is free to pitch about an off-centred axis are studied and used to derive the equations of motion of a wave energy converter which extracts energy from incoming sea waves with a linear power-take-off mechanism. The present work follows from a recent study which compared the performance of an off-centred cylinder with those of the Edinburgh Duck wave energy converter. The small decrease in performance found is offset by a reduction in the likely costs associated with the manufacturing of the cylindrical cam compared with those of the asymmetric profile. As part of the survivability strategy in very energetic seas-states it had been planned to completely submerge the device so as to reduce the mooring forces. However, experiments with scale models show that a good absorption capacity is retained even when fully-submerged. The hydrodynamic properties of a horizontal cylinder that pierces the free-surface and of one that is fully submerged are therefore of central concern in this study. These properties are well known for the case of very long cylinders but they are now found for cylinders with different widths, drafts, submergence levels and water-depths. The hydrodynamic forces and moments at the off-centred axis are, furthermore, derived through the application of transformation formulae. The equation of motion of the off-centred cylinder is derived for one degree of freedom and its performance as a wave energy converter is analysed. A relationship which relates the resonance of the device with the location of the off-centred axis and its mass distribution is derived and used to optimize the design for average sea conditions attained at a real location. Design cases associated with three diameters of the cylinder are looked into detail for both a fully-submerged and free-surface piercing cylinder. The one degree of freedom model is extended to include a multi-body which has three degrees of freedom in order to describe the dynamics of a proposed wave ...
author2 Salter, Stephen
Taylor, Jamie
Bryden, Ian
Engineering and Physical Sciences Research Council (EPSRC)
format Doctoral or Postdoctoral Thesis
author Lucas, Jorge
author_facet Lucas, Jorge
author_sort Lucas, Jorge
title Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
title_short Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
title_full Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
title_fullStr Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
title_full_unstemmed Dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
title_sort dynamics of a horizontal cylinder oscillating as a wave energy converter about an off-centred axis.
publisher The University of Edinburgh
publishDate 2011
url http://hdl.handle.net/1842/5679
genre Arctic
genre_facet Arctic
op_relation J. Lucas, J. Cruz, S. H. Salter, J. Taylor, and I. Bryden. Update on the modelling of a 1:33 scale model of a modified edinburgh duck wec. In Proceedings of the 7th European Wave and Tidal Energy Conference, page 9, Porto, Portugal, September 2007.
J. Lucas, J. Cruz, S. H. Salter, J. Taylor, and I. Bryden. Update on the design of a 1:33 scale model of a modified edinburgh duck wec. In Proceedings of Offshore Mechanics and Arctic Engineering 2008, page 11, Estoril, Portugal, June 2008.
J. Lucas, S. H. Salter, J. Cruz, J. Taylor, and I. Bryden. Performace optimisation of a modified duck through optimal mass distribution. In Proceedings of the 8th European Wave and Tidal Energy Conference, page 10, Uppsala, Sweden, September 2009.
R. Pascal, J. Lucas, D. Ingram, and I. Bryden. Assessing and improving the edinburgh curved wave tank. In Proceedings of the Nineteenth (2009) International Offshore and Polar Engineering Conference, pages 269–275, Osaka,Japan, June 2009.
S. H. Salter, J. Cruz, J. Lucas, and R. Pascal. Wave powered desalination. In International Conference on Integrated Sustainable Energy Resources in Arid Regions, Abu Dhabi, 2007.
http://hdl.handle.net/1842/5679
_version_ 1772810720809844736

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