The Wave Hub facility in Cornwall (South West UK) is a marine renewables test site, predominantly designed for the purpose of trialling wave energy converters prior to commercialisation. Beach water-users such as bathers and surfers are of
economic importance to tourism in Cornwall, and during the Wave Hub consultation there were concerns among stakeholders that wave energy extraction would reduce the height and quality of coastal waves for surfing, as well as affecting sediment transport and beach morphology. This thesis investigates the interaction between
wave conditions, beach morphology, and beach water-users, and proposes how a wave climate altered by wave energy extraction is likely to alter these interactions. A multidisciplinary research approach is adopted, involving the collection of qualitative and quantitative social data, the collection of over 5 years of physical wave and beach morphology data, and predictive modelling of the effects of an attenuated wave climate.
Quantitative, structured interview data from 403 water-users, collected at two beaches (Perranporth and Porthtowan) in the lee of Wave Hub, indicate that the population of water-users in the area is predominantly made up of surfers (53%), but
bodyboarding and swimming/bathing are also popular activities (29% and 11%, respectively).
In-depth semi-structured interviews reveal that water-user perceptions of wave energy extraction and its potential coastal impacts are constructed using intuitive risk perceptions, rather than technical understanding. These risk perceptions
are constructed through a weighing of their perception of wave energy devices
('technology') and their perception of the coastal environment ('nature'). To investigate
how waves are perceived, nearshore wave buoy measurements collected in 14 m
water depth and transformed to breaking height, are compared to concurrent visual
observations of mean breaker height and period. On average water-users underestimated
significant wave height and period by 48% and 17%, respectively. Accounting
for variations in wave perception, the wave preferences of different water-user groups
are determined. Water-users are found to share a common preference towards wave
periods of 9 - 20 s, but different water-user groups are found to have different ranges
of preferred wave height, which is found to govern whether wave energy extraction
will decrease or increase the occurrence of preferred waves.
Previous research indicates that three-dimensional (3D) beach morphology with
crescentic bar and rip features is the primary controller of surf-zone hazard, and
also strongly influences the quality of surfing waves at the coast. A dataset of 5.5
years of quasi-weekly bar measurements, and quasi-monthly intertidal surveys from
Perranporth beach is used to quantify seasonal to inter-annual changes in three-dimensionality.
Integrated, cumulative fluctuations in wave steepness, wave power, and relative tide range that occur over seasonal time scales are shown to be well correlated to seasonal fluctuations in beach three-dimensionality. 3D morphology is
well related to a disequilibrium term that predicts increases or decreases in three-dimensionality
by examining the difference between instantaneous wave conditions and a temporally varying equilibrium condition, based on a weighted average of antecedent waves. This indicates that periods of wave regime change between erosive
winter conditions with high steepness waves and accretive summer conditions with
low steepness waves are related to the growth of 3D features, and vice versa, while
extended periods with similar wave conditions drive the beach towards equilibrium.
Using a range of realistic and extreme coastal wave height attenuation scenarios
determined from previous Wave Hub modelling studies, it is predicted that none of
the scenarios will have a universally positive or negative effect on the occurrence
of wave conditions preferred by water-users. When used to predict beach three-dimensionality
at Perranporth beach, the attenuated wave climates are found to reduce the variability in three-dimensionality. Even an extreme and unrealistic level of wave energy extraction (100% energy capture) was shown to have an insignificant
effect on the occurrence of preferred waves, and only under an extraction scenario
where the impact was not varied with wave frequency did this level of attenuation
have a significant effect on the predicted beach three-dimensionality. The inshore
wave attenuation from Wave Hub is therefore likely to have an insignificant effect on
wave conditions and beach morphology of relevance to beach water-users. A number
of observations and recommendations are discussed for the development of a sound
and robust methodological approach, which can be used to investigate the effects of
wave energy extraction on beach water-users at future wave farm sites.
Date of Award | 2015 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Emily Beaumont (Other Supervisor) |
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- Marine Renewable Energy
- Beach morphology
- Wave perception
- Water users
- Wave energy
COASTAL IMPACTS IN THE LEE OF A WAVE ENERGY SITE: WAVES, BEACH MORPHOLOGY AND WATER-USERS (WAVE HUB, CORNWALL, UK)
Stokes, C. (Author). 2015
Student thesis: PhD