1) design flood line
洪水位线
1.
Analyzing design flood line with ArcGIS software is used to illustrate the feasibility of analyzing design flood line with GIS vector-grid integration space-analyzing.
通过应用ArcGIS软件,对黑河干流设计洪水位分析,确立洪水位线,以实际工程例子,证明了GIS技术中矢量栅格一体化的空间分析功能进行洪水位设计线确定的可行性。
2) at flood stage.
在洪水水位线
3) frequency curve of flood level
洪水位频率曲线
4) water level of flood
洪水水位
1.
Delft3D numeral model is adopted to simulate the water level of flood in tidal estuaries.
潮汐河口洪水水位受流域来水和海域潮汐双重作用,动力机制复杂,在特大洪水作用下,河口床面边界还将发生显著变形,造成水面相应明显升降,以致用定床模型预报洪水位误差很大。
5) flood water level
洪水位
1.
Discussion on variations of flood water level and riverbed erosion and deposition for the middle and lower Yangtze River;
长江中下游洪水位与河床冲淤关系初探
2.
The distribution of velocity varies with different flood water levels and different lengths of guide bank was analyzed.
本文结合曹娥江大闸枢纽工程模型试验,针对本工程平原河道的特性,采用平面二维水流数学模型,进行了水流流态模拟,分析了流速分布以及洪水位变化情况,比选了上游不同导流堤方案,降低试验成本,缩短试验周期,指导工程实践。
3.
Some remnant marks of flood water level, characterized by dark color and with small eroded holes distributed on the horizontal level marks, are found along the hillside of Nanjing.
在采石矶岸段的岩壁上也存在着高程大致相当的水位痕迹,反映出是保存在长江南岸岩壁上的区域性洪水位遗迹。
6) flood level
洪水位
1.
Analysis of river bed change of Yangtze River and flood level variation;
长江中下游河床冲淤与洪水位变化
2.
Analysis of the influence of Dongting Lake s area variation measured by MODIS on flood level;
基于MODIS的洞庭湖面积变化对洪水位的影响
3.
After verified by two floods process before and after Jianshan reclamation,a 1D mobile bed numerical model was used to analyze the impact of the deposition downstream movement on the flood level at Hangzhou river reach based on three designed underwater topographies.
应用一维动床数值模型,验证了尖山围涂前后2次洪水过程,在此基础上,设计了3种典型地形,计算分析了淤积下移对钱塘江河口杭州段洪水位的影响。
补充资料:河道洪水演进(见河道洪水演算法)
河道洪水演进(见河道洪水演算法)
neaao non郎hUi河道洪水演进yanJ县n 见河道洪水演算法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条