杭州湾台风期间悬浮泥沙动力学及其影响因素

IF 1.6 Q4 ENVIRONMENTAL SCIENCES Anthropocene Coasts Pub Date : 2023-02-06 DOI:10.1007/s44218-023-00019-5
Ju Huang, Jianrong Zhu
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引用次数: 0

摘要

杭州湾位于中国长江口南侧,容易受到极端天气的影响,如夏季和秋季的台风。本文建立了一个考虑平流、混合、波浪和泥沙分层等动力因素的三维悬沙数值模型,模拟分析了台风对杭州湾水沙输移的影响。模型验证表明,该模型能够充分再现台风条件下悬浮泥沙浓度的变化。模拟结果表明,底层高SSC主要分布在南海岸前缘,一般超过10kg·m−3。台风期间,杭州湾水体和悬沙输移呈现“北陆南海”的环流格局,促进了悬沙在杭州湾中部的汇聚。2018年“鲁姆比亚”台风期间,南汇岬至七曲群岛段(NQ段)的水沙通量较台风前分别增加了18.13%和265.75%。台风期间波浪引起的底部剪切应力对底部SSC有非常显著的影响。敏感性实验表明,波浪引起的底部剪切应力极大地促进了台风期间沉积物的再悬浮,这间接地使沉积物引起的分层比波浪对垂直混合的直接影响更强。台风带来的强风主要增强了垂直混合,对地表SSC的影响比波浪强。台风期间沉积物引起的分层对垂直混合的抑制作用不容忽视,尤其是对杭州湾等高浊度沿海水域。
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Suspended sediment dynamics and influencing factors during typhoons in Hangzhou Bay, China

Hangzhou Bay is located in China on the south side of the Changjiang Estuary and is vulnerable to extreme weather, such as typhoons in the summer and autumn. In this study, a three dimensional suspended sediment numerical model was developed that considers the dynamic factors of advection, mixing, wave, and sediment-induced stratification to simulate and analyze the effect of typhoons on water and sediment transport in Hangzhou Bay. The model validations show that the model can sufficiently reproduce the variability of the suspended sediment concentration (SSC) during typhoon conditions. The simulation results show that the high SSC in the bottom layer was mainly distributed in the leading edge of the south coast, and generally exceeded 10 kg·m−3. During typhoons, the water and suspended sediment transport in Hangzhou Bay presented a pattern of "north-landward and south-seaward" circulation, which promoted the convergence of suspended sediment in the center part of the bay. During Typhoon Rumbia in 2018, the water and sediment flux across the section from Nanhui Cape to Qiqu Archipelago (NQ section) increased by 18.13% and 265.75%, respectively, compared with those before the typhoon. The wave-induced bottom shear stress during typhoons has a very significant impact on the bottom SSC. The sensitivity experiments show that the wave-induced bottom shear stress greatly promotes the sediment resuspension during typhoons, which indirectly makes the sediment-induced stratification stronger than the direct effect of waves on the vertical mixing. The strong winds brought by typhoons mainly enhanced the vertical mixing, which has a stronger effect on surface SSC than waves. The suppression of vertical mixing by sediment-induced stratification during typhoons should not be ignored, especially for high turbidity coastal waters, such as Hangzhou Bay.

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