| Process-based modeling of morphodynamics of a tidal inlet system |
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| 作者姓名: | XIE Dongfeng GAO Shu PAN Cunhong |
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| 作者单位: | Zhejiang Institute of Estuaries and Hydraulics, Hangzhou 310020, China;Ministry of Education Key Laboratory for Coast and Island Development, Nanjing University, Nanjing 210093, China,Ministry of Education Key Laboratory for Coast and Island Development, Nanjing University, Nanjing 210093, China,Zhejiang Institute of Estuaries and Hydraulics, Hangzhou 310020, China |
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| 基金项目: | The National Natural Science Foundation of China under contract Nos 41006053 and 40576023; the Ministry of Water Resources' Special Funds for Scientific Research on Public Causes under contract No. 201001072; the Program for Innovative Research Team of Zhejiang Province under contract No. 2009F20024. |
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| 摘 要: | The morphodynamic evolution of an idealized inlet system is investigated using a 2-D depthaveraged process-based model,incorporating the hydrodynamic equations,Englund-Hansen’s sediment transport formula and the mass conservation equation.The model has a fixed geometry,impermeable boundaries and uniform sediment grain size,and driven by shore-parallel tidal elevations.The results show that the model reproduces major elements of the inlet system,i.e.,flood and ebb tidal deltas,inlet channel.Equilibrium is reached after several years when the residual transport gradually decreases and eventually diminishes.At equilibrium,the flow field characteristics and morphological patterns agree with the schematized models proposed by O’Brien (1969) and Hayes (1980).The modeled minimum cross-sectional entrance area of the tidal inlet system is comparable with that calculated with the statistical P-A relationship for tidal inlets along the East China Sea coast.The morphological evolution of the inlet system is controlled by a negative feedback between hydrodynamics,sediment transport and bathymetric changes.The evolution rates decrease exponentially with time,i.e.,the system develops rapidly at an early stage while it slows down at later stages.Temporal changes in hydrodynamics occur in the system;for example,the flood velocity decreases while its duration increases,which weakens the flood domination patterns.The formation of the multi-channel system in the tidal basin can be divided into two stages;at the first stage the flood delta is formed and the water depth is reduced,and at the second stage the flood is dissected by a number of tidal channels in which the water depth increases in response to tidal scour.
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| 关 键 词: | 潮汐通道 地貌体系 过程建模 进气系统 水动力方程 沉积物粒度 质量守恒方程 大肠杆菌 |
| 收稿时间: | 12 February 2008 |
| 修稿时间: | 2010/10/18 0:00:00 |
Process-based modeling of morphodynamics of a tidal inlet system |
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| XIE Dongfeng,GAO Shu,PAN Cunhong.Process-based modeling of morphodynamics of a tidal inlet system[J].Acta Oceanologica Sinica,2010,29(6):51-61. |
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| Authors: | XIE Dongfeng GAO Shu and PAN Cunhong |
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| Institution: | 1.Zhejiang Institute of Estuaries and Hydraulics, Hangzhou 310020, China;Ministry of Education Key Laboratory for Coast and Island Development, Nanjing University, Nanjing 210093, China2.Ministry of Education Key Laboratory for Coast and Island Development, Nanjing University, Nanjing 210093, China3.Zhejiang Institute of Estuaries and Hydraulics, Hangzhou 310020, China |
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| Abstract: | The morphodynamic evolution of an idealized inlet system is investigated using a 2-D depthaveraged process-based model, incorporating the hydrodynamic equations, Englund-Hansen's sediment transport formula and the mass conservation equation. The model has a fixed geometry, impermeable boundaries and uniform sediment grain size, and driven by shore-parallel tidal elevations. The results show that the model reproduces major elements of the inlet system, i.e., flood and ebb tidal deltas, inlet channel. Equilibrium is reached after several years when the residual transport gradually decreases and eventually diminishes. At equilibrium, the flow field characteristics and morphological patterns agree with the schematized models proposed by O'Brien (1969) and Hayes (1980). The modeled minimum cross-sectional entrance area of the tidal inlet system is comparable with that calculated with the statistical P-A relationship for tidal inlets along the East China Sea coast. The morphological evolution of the inlet system is controlled by a negative feedback between hydrodynamics, sediment transport and bathymetric changes. The evolution rates decrease exponentially with time, i.e., the system develops rapidly at an early stage while it slows down at later stages. Temporal changes in hydrodynamics occur in the system; for example, the flood velocity decreases while its duration increases, which weakens the flood domination patterns. The formation of the multi-channel system in the tidal basin can be divided into two stages; at the first stage the flood delta is formed and the water depth is reduced, and at the second stage the flood is dissected by a number of tidal channels in which the water depth increases in response to tidal scour. |
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| Keywords: | tidal inlet morphological evolution sediment dynamics numerical modeling |
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