Testing numerical models of coastal processes
This project used data collected in the field to test numerical models of the movement of water and sand / sediment that shapes coastlines.
Documents
If you use assistive technology (such as a screen reader) and need a version of this document in a more accessible format, please email: [email protected]. Please tell us what format you need. It will help us if you say what assistive technology you use.
Details
This project collected large-scale data from the field to test numerical models of coastal processes. It provided modelling tools and ways of managing the coastal zone. It aimed to improve understanding of the physical processes on coasts. This included enhancing the current numerical models of the movement of water and sand / sediment (hydrodynamics and morphodynamics).
It did this by:
- improving understanding of the physics of how sand is transported around coasts and morphodynamics
- providing data on sand transport and morphology suitable for testing numerical models of coastal processes at two contrasting sites
- testing a representative sample of numerical models for predicting coastal sand transport and morphodynamics against this data
- delivering tested modelling tools suitable for coastal zone management along with methodologies for its use
This project is linked to the EU MAST-3 COAST3D project led by HR Wallingford. It measures the way the seabed and beach have evolved at sites in Egmond, the Netherlands (1998) and Teignmouth, South Devon (1999) by looking at:
- waves
- currents
- sediment transport
The COAST3D project, supported by the Environment Agency, demonstrated the advantages of collaborative EU research projects in knowledge transfer and access to data and research results.
This project ran from 1997 to 2000 at a cost of £311,014.