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Erosion due to high flow velocities: a description of relevant processes
Bisschop , F.; Visser, P.J.; van Rhee, C.; Verhagen, H.J. (2010). Erosion due to high flow velocities: a description of relevant processes, in: McKee Smith, J. et al. (Ed.) Proceedings of the 32nd International Conference Coastal Engineering 2010. Coastal Engineering Proceedings, 32
In: McKee Smith, J.; Lynett, P. (Ed.) (2010). Proceedings of the 32nd International Conference Coastal Engineering 2010. Coastal Engineering Proceedings, 32. Coastal Engineering Research Council of the American Society of Civil Engineers: New York. , more
In: Coastal Engineering Proceedings. American Society of Civil Engineers (ASCE): New York. ISSN 2156-1028, more
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Keywords
    Erosion
    Flow velocity
    ANE, Netherlands, Zwin [Marine Regions]; Belgium, Het Zwin natuurreservaat
    Marine/Coastal
Author keywords
    (hindered) erosion; granular sediments; breaching; jetting
Authors  Top 
  • Bisschop, F.
  • Visser, P.J.
  • van Rhee, C.
  • Verhagen, H.J.
Abstract
    Convential models for the erosion of non-cohesive sediments overestimate the erosion rate induced by high flow velocities. These high flow velocities occur, for instance, in breaching of embankments or dunes (flow velocities up to 10 m/s) or in jetting sand with a trailing suction hopper dredger (30 to 60 m/s). At these very large flow velocities the erosion process is significantly influenced by the properties of the soil mass (non-cohesive particles). Governing parameters at higher flow velocities are dilatancy, permeability and the (un)drained shear strength of the soil. The sediment concentration in the water also influences the erosion process, especially in case of higher erosion rates. Based on the concept of Van Rhee (2007, 2010) a simple analytical formula is derived that gives a clear insight into the parameters influencing hindered erosion. The concept of hindered erosion is explained by two properties of granular soils: dilatancy and permeability. This implicates that the erosion behaviour of granular soils cannot be described by the behaviour of single particles alone. The properties of the whole soil mass should be considered in predicting erosion at higher flow velocities. Results of a large-scale breach experiment performed in 1994 in the Zwin Channel in the Netherlands (Visser, 1998) are analyzed to evaluate the formula.
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