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风速变化对竹湖流场结构影响的数值试验
韩红娟1,2, 胡维平1, 晋义泉3
1.中国科学院南京地理与湖泊研究所 湖泊与环境国家重点实验室 南京210008;2.中国科学院研究生院 北京100039;3.上海紫江地产有限公司 上海200020
摘要:
利用EcoTaihu生态模型中的压缩坐标系下三维水动力学子模型,对4种吞吐流量(换水周期分别为36d、7.2d、3.6d、35h),东、西、南、北风向,不同风速的风场作用下的浅水湖泊进行了数值模拟,分析比较了不同风速作用下湖泊分层流场及垂向平均流场结构的差异。结果表明,随着风速的增大,湖泊垂向平均流场逐渐由受吞吐流控制转变成受风生流场控制;在此转变过程中存在着临界风速值,当风速大小超过该值时,流场结构发生明显的改变;风向和吞吐流量是影响临界风速值大小的主要因素。风速变化对稳定状态的湖泊表层、次表层流场有较大影响,而对底层和次底层影响不大。在水深水平变化较大的区域,垂直平均流场结构对风速变化的响应较为敏感,易形成环流,浅水区垂向平均流向和风向一致,深水区则和风向相反;水深变化较小的水域,流场结构对风速变化的响应则较为迟钝。
关键词:  三维数值试验  风速  吞吐流  风生流
DOI:10.11693/hyhz200806005
分类号:
基金项目:国家自然科学基金项目,30670351号;中国科学院野外台站研究基金(2003)与紫江地产有限公司(2005)联合资助
NUMERICAL EXPERIMENTS ON INFLUENCE OF WIND SPEED ON CURRENT IN LAKE
HAN Hong-Juan1,2, HU Wei-Ping1, JIN Yi-Quan3
1.State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Nanjing, 210008;2.Graduate School of the Chinese Academy of Science, Beijing, 100039;3.Shanghai Zijiang Properties Company Limited, Shanghai, 200020
Abstract:
Numerical experiments on wind influence on water current in Zhuhu Lake (or Bamboo Lake in Chinese, an artificial lake within a residential area of Shanghai) were conducted with 3-D hydrodynamic EcoTaihu Model (partially). The study aims at understanding the movement and function of the lake for developing the lake in an environmental friendly manner. East, west, north, and south winds were simulated with speed from 0 to 11.0 m/s. Comparisons of vertical-averaged current field among the winds of different speeds in the four directions showed that the wind speed had great influences on the current. For each wind direction, there is a critical speed, below which the current was controlled by water flows inlet and outlet, while above which the current is mainly dominated by wind. Moreover, when wind speed reached certain speed, two or more circumfluences were formed. In the area of sharp depth change, the pattern of average current field varies sensitively with wind speed change, while in the area of flat and gentle bottom, insensitively. The current direction in shallow water was consistent with the direction of the wind, while against the wind direction in deeper water and responded slowly.
Key words:  Three-dimensional numerical experiment, Wind speed, Inlet/outlet, Wind-driven current
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