This research project uses an integrated modelling system to investigate the effects of a
wave farm on nearshore sediment transport at the Wave Hub site. The Wave Hub
project is a large scale demonstration site for the development of the operation of arrays
of wave energy generation devices located at the southwest coast of the UK where
multiple field measurements took place. Particular attention of this study was paid to the
interaction between waves and tides due the presence of the wave farm and its effects
on radiation stress, bottom stress, and consequently on the sediment transport and the
coast adjacent to the wave farm, using an integrated complex numerical modelling
system. The modelling system consisted of the SWAN model for waves and the ROMS
model for currents, and a sediment transport model for morphological computations.
The two-way coupled SWAN and ROMS models with nested model grids were set up
and run with and without the wave farm at the Wave Hub site. The results from this
study show that tidal elevation and tidal currents have a significant effect on the wave
height and direction predictions, and tidal forcing and wind waves have a significant
effect on the bed shear-stress, mainly during spring tide. Also, the wave radiation
stresses can considerably alter the long-shore and cross-shore velocity components.
Interactions between waves and tides at the Wave Hub site are found to be important
when modelling coastal morphological change due to the presence of wave energy
devices. The wave action can impact on bottom boundary layer and mixing in the water
column, which consequently impact on the nearshore sediment transport and the
resulting morphological changes. Model results indicate that wave and long-shore
currents are attenuated in the area sheltered by the wave farm. Bed-load rates show a
decrease in magnitude when the wave farm is present, even during storm conditions.
Wave impacts on averaged flood and averaged ebb tidal cycles show significant
changes during flooding cases, when including the wave farm, it has major effects for
the averaged flood cases on current speeds, bottom stresses, suspended sediments and
bed-load transports. The results highlight the importance of the interactions between
waves and tides when modelling coastal morphology with presence of wave energy
devices. It was observed that the presence of the wave farm has significant impacts on
the nearshore circulation, bed shear stresses and sediment transport. The morphological
changes are also altered by the wave farm. This integrated modelling system provides a
useful tool to help the study of physical impacts of a wave farm on coastal areas, which
is the key element for the wave resource characterization, ocean circulation, sediment
transport, morphodynamic changes and environmental impact assessment for the ongoing
Wave Hub projects.
Date of Award | 2013 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Vanesa Magar (Other Supervisor) |
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Waves, currents and sediment transport modelling at the Wave Hub site
Gonzalez-Santamaria, R. (Author). 2013
Student thesis: PhD