IMPLICATIONS OF PLUME DISCHARGE FOR TIDAL CHANNELS MORPHODYNAMICS: A COUPLED ONSHORE AND OFFSHORE SYSTEM

Alfonso Miguel Jiménez-Robles; Stefano Lanzoni; Miguel Ortega-Sánchez

doi:10.9753/icce.v35.sediment.12

No. 35 (2016), Sediment Transport and Morphology

No. 35 (2016)

IMPLICATIONS OF PLUME DISCHARGE FOR TIDAL CHANNELS MORPHODYNAMICS: A COUPLED ONSHORE AND OFFSHORE SYSTEM

Sediment Transport and Morphology

https://doi.org/10.9753/icce.v35.sediment.12

Published 2017-06-23

Alfonso Miguel Jiménez-Robles⁺⁻
Stefano Lanzoni⁺⁻
Miguel Ortega-Sánchez⁺⁻

Alfonso Miguel Jiménez-Robles

Environmental Fluid Dynamics Group. Andalusian Institute for Earth System Research. University of Granada

http://orcid.org/0000-0001-5440-2927

Stefano Lanzoni

Department of Civil, Architectural and Environmental Engineering, University of Padua

Miguel Ortega-Sánchez

Environmental Fluid Dynamics Group. Andalusian Institute for Earth System Research. University of Granada

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Keywords

tidal channel morphodynamics
offshore plume
numerical modelling

How to Cite

Jiménez-Robles, A. M., Lanzoni, S., & Ortega-Sánchez, M. (2017). IMPLICATIONS OF PLUME DISCHARGE FOR TIDAL CHANNELS MORPHODYNAMICS: A COUPLED ONSHORE AND OFFSHORE SYSTEM. Coastal Engineering Proceedings, 1(35), sediment.12. https://doi.org/10.9753/icce.v35.sediment.12

Abstract

This contribution investigates the morphodynamic equilibrium of a funnel-shaped, well-mixed tidal channel taking into account the existing dynamical coupling between the tidal channel itself and the related offshore sediment-laden plume. We use a quasi two-dimensional numerical model that resolves the fully nonlinear unsteady shallow water, sediment bed load transport and suspended sediment advection-diffusion equations along with the Exner equation for the bathymetric changes. We close this model by including a dynamic boundary condition at the channel mouth that transfers the offshore plume sediment concentration to the channel dynamics. This model reveals that the offshore plume reduces the timescales to reach equilibrium of the channel and plays a crucial role on shaping it. At equilibrium, the non-plume influence case attains a quasi-linear profile of constant slope in the seaward part. However, the bottom profile in the case that includes the offshore plume tends to increase the concavity of the bottom profile, reducing the final channel mouth depth. Finally, numerical results suggest that the plume characteristics are altered as a consequence of tidal channel evolution.

https://doi.org/10.9753/icce.v35.sediment.12

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IMPLICATIONS OF PLUME DISCHARGE FOR TIDAL CHANNELS MORPHODYNAMICS: A COUPLED ONSHORE AND OFFSHORE SYSTEM

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