Numerical simulation of sedimentation processes in reservoirs as a function of outlet location |
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Authors: | Horacio TONIOLO PhD Assoc Prof Civil Environmental Engineering |
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Institution: | Ph.D., Assoc. Prof., Civil and Environmental Engineering Department, University of Alaska Fairbanks, Alaska, USA |
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Abstract: | This paper builds on a recently published one-dimensional moving-boundary model of the coevolution of topset, foreset and bottomset in a reservoir that captures the dynamics of the internal muddy pond typical to reservoirs. This model was modified to account for different outlet locations at the reservoir's downstream end. This model considers a river carrying two sustained phases of sediments: coarse (sand) and fine (mud). The coarse phase deposits in the topset and delta foreset, while the fine phase forms a dilute suspension of wash load in the river. As the river enters the reservoir, the muddy water plunges on the foreset to form a Froude-supercritical (purely depositional) turbidity current. This turbidity current emplaces the bottomset. The modified numerical model was tested against five laboratory experiments previously reported by the author. The model successfully locates the muddy-water/clear-water interface. In addition, modeled and measured bed deposits are in good agreement. Results clearly indicate that the location of the internal hydraulic jump plays a key role in the final bed deposit. |
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Keywords: | Numerical model Delta Ponded turbidity currents Outlet location Reservoirs |
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