Role of basic rheological models in determination of wave attenuation over muddy seabeds |
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| Authors: | Mamta Jain Ashish J Mehta |
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| Institution: | 1. Halcrow Inc., 4010 Boy Scout Blvd., Suite 580, Tampa, FL 33607, USA;2. Department of Civil and Coastal Engineering, University of Florida, Gainesville, FL 32611, USA |
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| Abstract: | Among rheological models for estimating the rate of dissipation of non-breaking waves in muddy seabeds, those representing viscoelastic and poroelastic behaviors are used widely. In that regard, the dependence of the wave attenuation coefficient derived from basic rheological representations of mud behavior is examined on a cursory basis. For wave attenuation due to viscoelastic muds, results based on a semi-analytical model incorporating the effects of typically thin mud layers are summarized. This and an existing model for poroelastic beds are tested against selective laboratory data. Relying on these tests, it is emphasized that fluid-like mud should be modeled as a viscoelastic fluid medium, and that only non-fluid beds can be modeled as poroelastic media. Mechanisms for energy dissipation depend on bed compactness specified by the solids volume fraction, porosity or density, and on a characteristic Péclet number defined in terms of particle size, permeability and wave frequency. Due to the role of the latter parameter, for simulation of wave attenuation the chosen rheological model for a bed of given compactness must be applicable over the expected range of wave frequency. |
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| Keywords: | Cohesion Energy dissipation Mud Rheology Fine sediment Poroelasticity Viscoelasticity Viscoplasticity Water waves Wave damping Wave attenuation |
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