Numerical modeling of hyperpycnal flows in an idealized river mouth |
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| Authors: | Yan Wang Houjie Wang Naishuang Bi Zuosheng Yang |
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| Institution: | 1. College of Marine Geosciences, Ocean University of China, 238 Songling Rd., Qingdao 266100, China;2. Key Laboratory of Submarine Sciences and Prospecting Technique, Ministry of Education, 238 Songling Rd., Qingdao 266100, China;3. State Key Laboratory of Estuarine and Coastal Research (SKLEC), East China Normal University, 3663 Zhongshan N. Rd., Shanghai 200062, China |
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| Abstract: | Numerical experiments in an idealized river mouth are conducted using a three-dimensional hydrodynamics model (EFDC model) to examine the impacts of suspended sediment concentration (SSC), settling velocity of sediment and tidal mixing on the formation and maintenance of estuarine hyperpycnal flows. The standard experiment presents an illustrative view of hyperpycnal flows that carry high-concentrated sediment and low-salinity water in the bottom layer (>1.0 m in thickness) along the subaqueous slope. The structure and intra-tidal variation of the simulated hyperpycnal flows are quite similar to those previously observed off the Huanghe (Yellow River) mouth. Results from the three control experiments show that SSC of river effluents is the most important parameter to the formation of hyperpycnal flows. High SSC will increase the bulk density of river effluents and thus offset the density difference between freshwater and seawater. Low SSC of river effluents will produce a surface river plume, as commonly observed in most large estuaries. Both the settling velocity of sediment particles and the tidal mixing play an important role in maintaining the hyperpycnal flows. Increasing settling velocity enhances the deposition of sediment from the hyperpycnal layer and thus accelerates the attenuation of hyperpycnal flows, whereas increasing tidal mixing destroys the stratification of water column and therefore makes the hyperpycnal flows less evident. Our results from numerical experiments are of importance to understand the initiation and maintenance of hyperpycnal flows in estuaries and provide a reference to the rapidly decaying hyperpycnal flows off the Huanghe river mouth due to climatic and anthropogenic forcing over the past several decades. |
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| Keywords: | hyperpycnal flows suspended sediment transport settling velocity tidal mixing numerical modeling |
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