Tidal Modelling - Interface Specification for Tidal Stream models with the Continental Shelf Model
HR Wallingford and Black & Veatch Tidal Modelling - Interface Specification for Tidal Stream models with the Continental Shelf Model, ETI, 2011. https://doi.org/10.5286/UKERC.EDC.000801. Cite this using DataCite
HR Wallingford and Black & Veatch
Black & Veatch, HR Wallingford, University of Edinburgh
Launched in October 2011 this project involved Black & Veatch, in collaboration with HR Wallingford and the University of Edinburgh to develop a model of the UK Continental Shelf and North European Waters, 100 times more accurate than existing marine data. This has been used to assess the tidal energy potential around the UK (tidal range and tidal streams), to inform the design of energy harnessing schemes, to assess their interactions, and to evaluate their impact on European coasts. It can also be used to renew and inform flood defences, coastal erosion and aggregate extraction. Now completed, the project has been launched to market under the brand of SMARTtide. This is available to the marine industry under licence from HR Wallingford.
This deliverable is number 5 of 10 in the Tidal Modelling project and describes the interface for the Continental Shelf Model (CSM) being developed with detailed Tidal Current models, notably those being developed in the PerAWAT project. The report provides for two methods for future integration to ensure the CSM model design can remain as flexible as possible to future design choices in PerAWAT and to the potential integration with other models. A default methodology is proposed that keeps the computational run time similar to that of the detailed CSM and suppresses the need to transpose the parameterisation of the energy schemes. In this metholodogy, the effect and not the cause of the energy loss is transferred to the CSM. An alternative methodology is also offered, which is particularly relevant to members of the ETI’s PerAWAT project. In this methodology, the detailed local model mesh is substituted into that of the CSM and the energy schemes fully parameterised