A Modeling Study on Saltwater Intrusion to Western Four Watercourses in the Pearl River Estuary

Saltwater intrusion has been serious in the Pearl River estuary in recent years. For better understanding and analysis of the saltwater movement to the estuary, the three-dimensional Finite-Volume Coastal Ocean Model (FVCOM) is made to simulate the salinity intrusion to the four western watercourses...

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Bibliographic Details
Published in:China ocean engineering 2012-12, Vol.26 (4), p.575-590
Main Author: 程香菊 詹威 郭振仁 袁丽蓉
Format: Article
Language:English
Subjects:
Brackish
Coastal Sciences
Computer simulation
Engineering
Error analysis
Estuaries
Fluid- and Aerodynamics
Freshwater
Intrusion
Marine
Marine & Freshwater Sciences
Numerical and Computational Physics
Oceanography
Offshore Engineering
Rivers
Salinity
Simulation
Tides
Watercourses
倒灌
咸潮
均方根误差
模拟
水道
珠江口
盐度分层
西方
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Summary:Saltwater intrusion has been serious in the Pearl River estuary in recent years. For better understanding and analysis of the saltwater movement to the estuary, the three-dimensional Finite-Volume Coastal Ocean Model (FVCOM) is made to simulate the salinity intrusion to the four western watercourses in the Pearl River estuary under three semilunar conditions. With the measured and simulated Root Mean Square Error (RMSE) and the mean absolute percentage error of water level and salinity at multiple sites, the results show that the numerical water levels, salinity and flow velocities are in agreement with the measured data. It is acceptable and feasible to apply the FVCOM to simulate the salt water intrusion in the western four watercourses of the Pearl River. With the numerical data, the time and spatial movement patterns of saltwater intrusion along the Modao watercourse are analyzed. The salinity contour reaches its peak generally during 3~5 days before the spring tide. The salinity stratification is more obvious in the period of ebb tide than that in the rising tide whether in the spring or neap tides. Salt fluxes reflect changes of salt into the estuary, and the change rules are close to the rules of salinity intrusion.
ISSN:0890-5487
2191-8945
DOI:10.1007/s13344-012-0044-y