Add to ORKGThe ability to predict the movement of cohesive sediment within coastal, estuarine or inland waters has a significant economical and ecological importance in the development of new engineering works and the maintenance of existing installations. Schemes such as the reclamation of intertidal flats or the construction of flood protection structures or the laying of outfalls require a sound engineering appraisal of the likely changes in the patterns of sediment movement which will result after the scheme is built. Furthermore, the capability to predict the movement of cohesive sediment is crucial in the understanding of the distribution of certain pollutants, in particular heavy metals which are adsorbed on to clay and silt particles
This report describes the development of a self-contained system for making long-term field measurem...
Cohesive muddy sediments are abundant across estuarine ecosystems and these sediments are typically ...
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...
The ability to predict the movement of cohesive sediment within costal estuarine or inland waters ha...
The ability to predict the moment of cohesive sediment within tidal waters has a significant economi...
The ability to predict the movement of cohesive sediment within coastal, estuarine or inland waters ...
This report summarises, in an engineering form, the main processes of cohesive sediment behaviour, n...
The current research deals with the numerical modelling of cohesive sediment transport under the act...
A laboratory seawater flume was designed and constructed for experimental studies of the erosion ch...
This report is an update of the working manual part of 'The hydraulic engineering characteristics of...
The shear resistance of muddy sediments directly governs the susceptibility of the sediment to erosi...
The erosion, transport, deposition and consolidation of cohesive sediment within estuarine or other ...
Predictive modelling of estuarine sediment erosion and transport requires a description of the erosi...
To improve our capabilities for measuring and predicting erosion rates, sediment flux, water clarity...
The general aim of the Project ''Cohesive Sediment'' of the MAST programme ''G6 Coastal Morphodynami...
This report describes the development of a self-contained system for making long-term field measurem...
Cohesive muddy sediments are abundant across estuarine ecosystems and these sediments are typically ...
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...
The ability to predict the movement of cohesive sediment within costal estuarine or inland waters ha...
The ability to predict the moment of cohesive sediment within tidal waters has a significant economi...
The ability to predict the movement of cohesive sediment within coastal, estuarine or inland waters ...
This report summarises, in an engineering form, the main processes of cohesive sediment behaviour, n...
The current research deals with the numerical modelling of cohesive sediment transport under the act...
A laboratory seawater flume was designed and constructed for experimental studies of the erosion ch...
This report is an update of the working manual part of 'The hydraulic engineering characteristics of...
The shear resistance of muddy sediments directly governs the susceptibility of the sediment to erosi...
The erosion, transport, deposition and consolidation of cohesive sediment within estuarine or other ...
Predictive modelling of estuarine sediment erosion and transport requires a description of the erosi...
To improve our capabilities for measuring and predicting erosion rates, sediment flux, water clarity...
The general aim of the Project ''Cohesive Sediment'' of the MAST programme ''G6 Coastal Morphodynami...
This report describes the development of a self-contained system for making long-term field measurem...
Cohesive muddy sediments are abundant across estuarine ecosystems and these sediments are typically ...
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...