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午餐交流会第68讲:河优型河口余水位纵剖面的解析理论探讨(Analytical approach for determining the mean water level profile in an estuary with substantial fresh water discharge)
2017/3/13 2552
2017-03-13 2017年3月13日,11:40-13:30 (12:20开始讲座)
蔡华阳博士(中山大学海洋科学学院 副教授)
周隆泉楼A3-206
午餐交流会第68讲:河优型河口余水位纵剖面的解析理论探讨(Analytical approach for determining the mean water level profile in an estuary with substantial fresh water discharge)
 
主讲人:蔡华阳博士(中山大学海洋科学学院 副教授)
 
时间:2017年3月13日,11:40-13:30 (12:20开始讲座)
 
地点:周隆泉楼A3-206
 
邀请人:程鹏教授

蔡博士研究方向
· 河口动力学:径潮相互作用
· 解析理论:河口潮波传播与盐水入侵
· 水资源管理:三角洲及河口水资源调控及治理
 

 

报告摘要:

The mean water level in estuaries rises in landward direction due to a combination of the density gradient, the tidal asymmetry, and the backwater effect. This phenomenon is more prominent under an increase of the fresh water discharge, which strongly intensifies both the tidal asymmetry and the backwater effect. However, the interactions between tide and river flow and their individual contributions to the rise of the mean water level along the estuary are not yet completely understood. In this study, we adopt an analytical approach to describe the tidal wave propagation under the influence of substantial fresh water discharge, where the analytical solutions are obtained by solving a set of four implicit equations for the tidal damping, the velocity amplitude, the wave celerity and the phase lag. The analytical model is used to quantify the contributions made by tide, river, and tide-river interaction to the water level slope along the estuary, which sheds new light on the generation of backwater due to tide-river interaction. Subsequently, the method is applied to the Yangtze estuary under a wide range of river discharge conditions where the influence of both tidal amplitude and fresh water discharge on the longitudinal variation of the mean tidal water level is explored. Analytical model results show that in the tide-dominated region the mean water level is mainly controlled by the tide-river interaction, while it is primarily determined by the river flow in the river-dominated region, which is in agreement with previous studies. Interestingly, we demonstrate that the effect of the tide alone is most important in the transitional zone, where the ratio of velocity amplitude to river flow velocity approaches unity. This has to do with the fact that the contribution of tidal flow, river flow and tide-river interaction to the residual water level slope are all proportional to the square of the velocity scale. Finally, we show that, in combination with extreme value theory (e.g., Generalized extreme-value theory), the method may be used to obtain a first-order estimation of the frequency of extreme water levels relevant for water management and flood control. By presenting these analytical relations, we provide direct insight into the interaction between tide and river flow, which will be useful for the study of other estuaries that experience substantial river discharge in a tidal region.

 

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