Severn Estuary a model source of energy

10/5/2008

Cardiff University School of Engineering researchers are making it possible to more accurately predict the impact of using the Severn Estuary, the world's second highest tidal range, as a source of energy.

They have designed a physical model which resembles as closely as possible all the unique characteristics of the estuary, which stretches from west of Carmarthen Bay near Tenby to Gloucester. The model is located in a 6m x 4m tidal basin.

One option for a Cardiff to Western Barrage would stretch from Lavernock Point to Brean Down and is estimated to cost around 15 billion pounds. The massive structure could potentially harness the tidal energy of the Severn estuary and, within 14 years, could generate about 5% of the UK's supply of electricity.

Led by Professor Roger Falconer, researchers from Hydro-environmental Research Centre have designed and built the model to more accurately study the impact of proposed Severn Tidal Power projects, including a barrage and other forms of tidal renewable energy.

Located in the Hyder Hydraulics Laboratory, the model is the first of its kind capable of investigating the full environmental impact of different options for a barrage and lagoons in the Severn estuary and has been funded by the Welsh Assembly Government's Welsh European Funding Office.

It will allow for improved computer simulations of flooding patterns, inter-tidal habitat area changes, sediment transport and bed changes, such as erosion and deposition. Modelling of changes in beach morphology and general water quality characteristics, such as light intensity in the water column, nutrients and faecal bacteria levels, with and without the proposed Barrage will also be possible.

Professor Roger Falconer explains to Minister for Environment, Sustainability and Housing Jane Davidson, how Wales' first physical model of the Severn Estuary will more accurately predict the impact of the Severn Tidal Power Project
Built in collaboration with a project with Swansea University, the model features a computer controlled oscillating weir, which is used to generate tides of varying amplitude and period. It has a removable model barrage that allows conditions before and after the construction of the barrage to be simulated. It also allows for the impact of other tidal energy devices, including tidal lagoon and tidal stream turbines, to be examined.

Jane Davidson, the Welsh Assembly Government's Minister for Environment, Sustainability and Housing, who officially unveiled the model, said: "The Estuary is famous for having the second highest tidal range in the world. An ability to model this will be of international importance and will further enhance the reputation for excellence of Cardiff University and its School of Engineering.

"The Welsh Assembly and UK Governments are currently undertaking a feasibility study on the effect that different options for a barrage and lagoons would have - for example on flooding risk and siltation. I look forward to hearing of progress made by Professor Falconer, and researchers from other universities, in using the physical and computer models to increase understanding of these hydro-environmental impacts."

Professor Roger Falconer, Halcrow Professor of Water Management, and Director of the Hydroenvironmental Research Centre said: "A number of studies relating to the potential impact of a barrage have been carried out since the proposal was first mooted. However, this physical model, which is close in design to the actual basin, will enable us for the first time to look in-depth and over the long term at the potential impact of a barrage or other tidal-range development on the surrounding aquatic environments and habitats.

"Combine this facility with the computer models already in place at the Centre, and we should be able to identify problems and establish appropriate solutions over time."

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