Add to ORKGThis report summarises the collective knowledge about the distribution and behaviour of mud in the North Sea from work conducted at Hydraulics Research and from other researchers. The report describes the laboratory tests on a sample of mud collected from Mardson Bay, off the South Shields coast. This site was chosen as it was also the site of the North-East Coast Cohesive Sediment Dynamics Study (NECCSDS). Laboratory tests for uni-directional current erosion and wave erosion are reported. The laboratory results at HR are compared with observed sediment resuspension and deposition in the field
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...
In 1993 an interdisciplinary research programme on the behaviour of mud in tidal waters was initiate...
The effect of hydro-meteorological forcings (tidal and wind-induced flows) on the transport of suspe...
Multi-sensor tripod measurements in the high-turbidity area of the Belgian nearshore zone (southern ...
This report describes laboratory tests to determine the properties of River Tees mud, conducted as a...
This report summarises, in an engineering form, the main processes of cohesive sediment behaviour, n...
This report is an update of the working manual part of 'The hydraulic engineering characteristics of...
An understanding of sediment transport in estuaries is important to enable greater control of proces...
Many harbours in the world suffer from high siltation rates in their basins. To guarantee safe shipp...
Studies on cohesive sediment erosion can be traced back to the mid-1950s, and since that time many o...
To improve our capabilities for measuring and predicting erosion rates, sediment flux, water clarity...
Many harbours in the world suffer from high siltation rates in their basins. To guarantee safe shipp...
An investigation of the properties of Grangemouth mud was undertaken at Hydraulics Research by HR st...
The ability to predict the movement of cohesive sediment within coastal, estuarine or inland waters ...
The purpose of this study was to make comprehensive surface measurements of the changes in moisture ...
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...
In 1993 an interdisciplinary research programme on the behaviour of mud in tidal waters was initiate...
The effect of hydro-meteorological forcings (tidal and wind-induced flows) on the transport of suspe...
Multi-sensor tripod measurements in the high-turbidity area of the Belgian nearshore zone (southern ...
This report describes laboratory tests to determine the properties of River Tees mud, conducted as a...
This report summarises, in an engineering form, the main processes of cohesive sediment behaviour, n...
This report is an update of the working manual part of 'The hydraulic engineering characteristics of...
An understanding of sediment transport in estuaries is important to enable greater control of proces...
Many harbours in the world suffer from high siltation rates in their basins. To guarantee safe shipp...
Studies on cohesive sediment erosion can be traced back to the mid-1950s, and since that time many o...
To improve our capabilities for measuring and predicting erosion rates, sediment flux, water clarity...
Many harbours in the world suffer from high siltation rates in their basins. To guarantee safe shipp...
An investigation of the properties of Grangemouth mud was undertaken at Hydraulics Research by HR st...
The ability to predict the movement of cohesive sediment within coastal, estuarine or inland waters ...
The purpose of this study was to make comprehensive surface measurements of the changes in moisture ...
Mud in the natural environment is a mixture of clays, silt, sand, water and organic matter. It can b...
In 1993 an interdisciplinary research programme on the behaviour of mud in tidal waters was initiate...
The effect of hydro-meteorological forcings (tidal and wind-induced flows) on the transport of suspe...