1) heavy rainfall
强降雨
1.
At present, at home and abroad, researches on theorise and numerical simulation of saturated-unsaturated infiltration are not enough, especially the studies on the process of rainwater infiltration and its factors analysis under the condition of heavy rainfall are also not comprehensive enough.
目前,国内外对饱和-非饱和渗流的相关理论和数值模拟的研究还不够深入,尤其在强降雨条件下,对水分的入渗过程以及渗流场影响因素分析的研究还不够全面和系统。
2.
On the basis of the above work, the special study on the mechanics of double-piles under the condition of heavy rainfall is implemented and some preliminary results are present here.
本文在总结前人研究成果的基础上,分析了桩土相互作用基本特征,并用ABAQUS仿真了其力学性能的演变过程,最后初步分析了双排桩在强降雨环境下的性态反应,获得了双排桩在特殊条件下的一些基本特点。
2) Torrential rain
强降雨
1.
Analysis indicates that this kind of landslide mostly belongs to shallow landslide,whose key inducing factors are the strength reduction of soil in landslide zone and hydrostatic pressure caused by torrential rain.
分析表明:此类滑坡大多为浅层滑坡,强降雨引起的滑带土强度降低和静水压力是滑坡的关键诱发因素,同时地震也可以在瞬间诱发滑坡的滑动、破坏。
3) strong rainfall
强降雨
1.
Combining strong rainfall feature,rainfall intensity can be forecast and the affected area can be confirmed based on high and new technology such as 3S and net communication technology.
结合强降雨的特征,借助3S技术以及网络通信等高新技术,可以提前预报降雨强度,确定受灾区域。
2.
This paper conducts the comparison analysis of the influence system,the physical quantity field and the FY-2C infraved cloud chart and the rador echo characteristic of the two strong rainfall with the strong convection weather processes occurred on June 13,2006 and August 20,2005 in the west of Guangxi.
对2005年8月20日和2006年6月13日发生在桂西的两次强降雨并伴有强对流天气过程的影响系统、物理量场和FY-2C红外云图及雷达回波特征进行对比分析。
4) rainfall intensity during once precipitation
次降雨雨强
1.
The results showed:there were close relationships of rainfall intensity during once precipitation,soil moisture .
研究表明该区次降雨雨强、降雨前期土壤含水量、植被覆盖度、坡面坡度和土壤侵蚀量之间存在着密切的相关关系。
5) rainfall intensity
降雨强度
1.
Experimental study on the impacts of rainfall intensity on phosphorus loss from loessial slope land;
降雨强度对黄绵土坡地磷流失特征影响试验研究
2.
Impact of rainfall intensity on soil mineral nitrogen loss by runoff on loess slope;
降雨强度对黄土坡面矿质氮素流失的影响
3.
Effects of leaf area and rainfall intensity on stemflow amount through corn canopy;
叶面积和降雨强度对玉米茎秆流量的影响
6) precipitation intensity
降雨强度
1.
The numerical model is used to predict moisture distribution law under different precipitation intensity.
建立了一维垂直非饱和土壤水分运动的数学模型,并采用有限差分方法对模型进行数值求解,模拟了不同降雨强度条件下水分分布的动态规律,数值模拟结果表明:降雨强度的大小直接影响着土壤水分湿润锋的分布,并且所建立的模型与实验测试结果吻合较好,验证了模型的可靠性,从而可为定量化研究填埋气体和浸出液释放提供理论根据。
2.
In general medium and small scale earth dam project, due to lack of self-recording precipitation intensity data on local high (frequency) floods, there will be no way to have the designed runoff which can meet the project accuracy necessity for the design of dam face drainage system.
一般中小型土坝工程缺乏当地的高频率常遇洪水的自记雨量降雨强度资料 ,因此 ,无法以满足工程精度要求的设计径流量来设计坝面的排水系统。
3.
The results indicated there was a linear relationship between its mortality and precipitation intensity, and the linear model was as follows: Y=0, X<1.
分析了降雨对湿地松粉蚧(Oracellaacuta(Lobdell))第1代初孵若虫试验种群的影响,结果表明,若虫的校正死亡率与降雨强度成线性相关,线性方程为Y=0, X<1 25Y=4 1+22 0X,X≥1 25,其中自变量X为降雨强度,Y为初孵若虫校正死亡率。
补充资料:椐椐强强
1.相随貌。
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