Effects of tidal range on mooring systems of wave energy converters
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Date
2015-09
Authors
Murphy, Stephen
Bhinder, Majid A.
Casaubieilh, Pierre
Sheng, Wanan
Journal Title
Journal ISSN
Volume Title
Publisher
EWTEC
Published Version
Abstract
Wave energy converters are currently proposed to be deployed near coastal area for the closeness to the infrastructure and for ease of maintenance in order to reduce operational costs. The motivation behind this work is the fact that the deployment depths during the highest and lowest tides will have a significant effect on the mooring system of WECs. In this paper, the issue will be investigated by numerical modelling (using ANSYS AQWA) for both catenary and taut moorings to examine the performance of the mooring system in varying tides. The case study being considered is the ¼- scale wave energy test site in Galway Bay off the west coast of Ireland where some marine renewable energy devices can be tested. In this test site, the tidal range is macro-tidal with a range of approximately 6 m which is a large value relative to the water depth. In the numerical analysis, ANSYS AQWA suite has been used to simulate moored devices under wave excitation at varying tidal ranges. Results show that the highest tide will give rise to larger forces. While at lower depths, slackening of the mooring occurs. Therefore, the mooring lines must be designed to accommodate both situations.
Description
Keywords
Mooring , Tidal range , Wave energy converters , ANSYS AQWA , Galway Bay
Citation
Murphy, S., Bhinder, M. A., Casaubieilh, P. and Sheng, W. (2015) 'Effects of tidal range on mooring systems of wave energy converters', 11th European Wave and Tidal Energy Conference (EWTEC), Nantes, France, 6-11 September.
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Copyright
© 2015 EWTEC