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Factors influencing development and change in intertidal biogenic habitat |
Determine the relative influence of suspended sediment availability and other key factors on honeycomb worm reef habitat morphology and development. |
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Using Remote Sensing for Intertidal Habitat Monitoring |
To assess emerging high resolution remote sensing techniques for their application in intertidal ecological studies. |
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Sensitivity of tidal stream resource to flow direction and magnitude asymmetry |
SEACAMS2 is working in close collaboration with Nova Innovation Ltd to develop techniques for deploying moorings in complex energetic tidal environments. The data collected from the deployed ADCP will help inform our understanding of complex flow environments when used in conjunction with a high resolution 3-D ocean model |
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Variation in composition and vertical distribution of marine fauna in the Holyhead Deep |
How are fauna and physical variables in the Holyhead Deep distributed vertically over diel and semidiurnal / lunar tidal timescales? |
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Geoscientific research to support the development of the Morlais tidal stream demonstration zone off west Anglesey |
To research the effectiveness of submerged structures as analogues for predicting the long-term(decadal) impacts of MRE infrastucture on physical marine processes. |
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Researching the ecological impacts of North Wales windfarm sites as analogies to Welsh tidal and wave energy developments |
To understand how the introduction of hard-substrate in the form of wind turbine structures affects benthic habits along the North Wales coastline. |
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Characterising biofouling communities at tidal energy development sites |
To characterise and investigate variability in biofouling communities at marine renewable energy development sites in North Wales |
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Will fish and other fauna be attracted to marine renewable energy structures? |
The effectof deep(50 -150 m) marine renewable subsea installations on pelagic ecology: Using ship wrecks and test marine renewable energy devices to gain insights. |
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Considering vertical variability in the tidal stream resource: a headland case study |
Using a high resolution tidal model and observational data to consider vertical variations in the tidal stream resource, and how it might vary with different device technologies |
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Modelling Tidal Stream Energy Extraction in 3-D Models |
To provide KnowtraLtd with a new numerical modelling product and enhancing our understanding of interactions between tidal stream arrays and the marine environment. |
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Geoscience research to support the development of a wave energy demonstration zone in Pembrokeshire, South Wales |
To research and characterise the seabed environment off the coast of South Pembrokeshire using geo-scientific survey methods to identify appropriate areas for the development of a wave energy demonstration zone. |
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Geophysical research to identify appropriate sites for the development of Marine Energy Test Areas (META) in Milford Haven |
To develop an improved understanding of the physical sub-tidal environment in Milfoed Haven and surrounding exposed coastal areas (bathymetry, sediment composition, underlying startigraphy) on various temporal and spatial scales to assist Marine Energy Wales and developers identify optimum sites for Marine renewable energy infrastructure testing |
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Mapping and monitoring benthic biotopes in marine development areas |
To investigate the potential for acoustic data to be used for mapping and monitoring biotopes of interest to developers and regulators in regions of marine renewable energy development. |
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Application of remote sensing technologies to assess the vulnerability of Marine Renewable Energy support infrastructure |
To assess the efficiency and benefits of integrated multibeam, photogrammetry and laser scan surveys to monitor the impacts of climate change on Holyhead Breakwater |
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Researching interactions between marine environmental processes and Marine Renewable Energy(MRE) related infrastructure |
To investigate medium energy, deep water(60m+) offshore environments using geo-scientific survey methods to improve the structural design, site selection and array configuration of MRE related seabed foundations, development of appropriate survey methodologies and future monitoring strategies. |
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Observing High Energy Marine Environments for Marine Energy Applications |
To improve the success of deployments in high energy marine environments though knowledge sharing and field deployments with the aim of informing future industry and academic field campaigns and providing a networking opportunity for those working in marine environments to connect with marine technology companies to improve future deployment strategies. |
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Tidal stream resource characterisation: progressive vs standing wave systems |
Tidal energy assessment of the Morlais Tidal Demonstration Zone, with a novel focus on floating tidal stream energy converters |