在模型建立的过程中, 将流域划分为几个子流域,先对每个子流域中的产流进行计算, 通过河道进行汇流。
The flow in each sub basin is calculated and then added together to get the runoff concentration of the main river.
同时,将流域水循环系统概化为自然水循环系统和人工水循环系统,分别用供水单元和用水单元模拟其结构构成要素。
At the meantime, it generalizes the water circulation into natural and human water circulation system using water supply and water consumption unit to simulate their structure factors.
例如,在亚马逊河流域,能否进入整个地区,将取决于当地船员和其他助手是否愿意进入实力相对强大的美洲印第安人群体居住的地区。
In the Aamazon, for example, access to entire regions would depend on the willingness of local crew members and other assistants to enter areas inhabited by relatively powerful Amerindian groups.
而流域内所能提供的可用水资源量是有一定限度的,需求与供给间的矛盾将日趋尖锐。
But water resource amount what can offer in the basin is limited; the contradiction among the demand and supply will be sharp day by day.
主要报告了如何建立灰色规划模型,如何求取规划模型的灰色解,如何将灰色规划解应用于流域规划等。
The main focuses are the method of grey planning model build-up, the procedure of grey model solution, and the application of grey model in watershed planning.
RUSLE是一个坡面模型,当将模型用于流域层次时,关键是地形因子的确定。
RUSLE is a field model, when using the model in watershed, properly determining topographic factor is crucial.
长江流域防洪规划的实施,将显著提高防洪保护区的防洪标准,其经济效益、环境效益、社会效益十分显著。
The execution of Yangtze valley flood control plan will remarkably upgrade the flood control standard of flood protected zone, and produce remarkable economic, environmental and social benefits.
将优选得到的参数应用于整个小江流域进行了洪水预报。
By using the estimated parameter for whole reservoir, the dissertation studies the watershed flood forecasting of Hepu.
如果西伯利亚和巴西将发生洪水,密西西比河流域也跑不了。
If Siberia and Brazil will flood, so will the Mississippi Valley.
将旋转经验正交函数(REOF)和谱分析和谐波分析相结合深入分析阿克苏河流域的降水量场的时间变化和空间分布。
Space-time distributing character of precipitation field in Akesu-river drainage-basin were studied by REOF, spectrum, and harmonic analysis.
未来黄河流域水资源供需不平衡的矛盾将更为突出。
In the future, the contradiction of the imbalance between the supply and demand of water resources in the Yellow River Basin will be more prominent.
提出了将GIS应用到流域洪水预报系统,实现地理信息系统与洪水预报系统的结合。
Suggest using GIS in basin flood forecasting system to realize the combination of flood forecasting system and GIS system.
我们在进行北河小流域系统分析时,将众多的因素聚类组合,建立了层次分析模型。
When analysing Beihe small watershed systematically we cluster and group all the factors and establish models of level analysis.
一个小流域将气候、土壤、水文、地质以及土地利用和各种人文因子综合在一起,形成一个完整的“流域反应”系统。
A small watershed integrates climate, soil, hydrological, geological, land use and various human factors and form a complete "watershed response" system.
基于多模式加权的气候变化情景显示,未来黄河流域的气温将呈明显的上升趋势。
According to the climate change scenarios based on multi-model weighting, the air temperature in the Yellow River Basin will rise significantly in the future.
进而以流域分级理论为依据,将坡面、小流域、区域、全流域四个层次的模型整合成一个完整的流域整体模型。
The suggested model has four kinds of module, which are slope module, sub-basin module, region module and entire basin module.
将模型应用于桂江流域年径流预测分析,结果表明,预测与实际情况一致。
This model had been applied in annual runoff prediction for Guijiang basin, rendering prediction results consistent with actual condition.
依据地下水资源与城市的组合特征,将海河流域平原区的城市划分为山前平原、中部平原和滨海平原三种类型。
Based on the compositing characteristics of underground water resources and cities of Haihe River Basin, cities can be divided into three types-piedmont plain, median plain and coastal plain.
将下渗曲线与下渗率流域分配曲线结合起来,从而构成流域产流计算的数学模型。
The mathematical model was established by combining the infiltration curve with the areal distribution curve of the infiltration capacity within the basin.
据预测,珠江流域2006—2007年度枯水期来水依然偏枯,珠江三角洲地区将因咸潮继续面临严峻的供水局面。
According to forecast, water flow shall be low during dry period of 2006-2007 and water supply in the Pearl River Delta shall be threatened by salty tide again.
本文将SCS模型应用于我国陕北干旱半干旱地区实际大流域——(牛孛)牛川流域。
The SCS model has been used in the arid and semi-arid Boniuchuan region's watershed, Shaanxi province.
同时还对汤旺河流域的生态环境进行了分析和评价,将整个流域划分为不同的生态区域。
According to the analysis and assessment of the ecological environment of Tangwanghe Catchment, the ecotopes were classified.
模拟结果显示,未来水稻将减产9%,主栽区将北移至黑龙江流域;
The result of simulation shows that rice yield will decrease 9%, and the main planting area will move to Heilong River Basin.
长江流域部分城市的市民在日全食时会经历长达6分钟的黑暗,而其他地域的市民将看到日偏食。
People in parts of the populous Yangtze River valley will experience up to six minutes of complete darkness, while the rest of the country will see a partial eclipse.
长江流域部分城市的市民在日全食时会经历长达6分钟的黑暗,而其他地域的市民将看到日偏食。
People in parts of the populous Yangtze River valley will experience up to six minutes of complete darkness, while the rest of the country will see a partial eclipse.
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