1)  cold regions environment
径流特征分析
2)  surface runoff
径流
1.
Based on the experimental data from Guilin Irrigation Experiment Station in Guangxi Autonomous Region,the relation of rainfall utilization and surface runoff in paddy fields under different rainfall frequency and different irrigation regimes is studied;i.
对广西桂林不同降雨频率与不同灌溉方式下的降雨利用、径流量分析研究表明,晚稻降雨利用率远高于早稻;早稻在"薄、浅、湿、晒"、间歇灌溉、传统灌溉模式下降雨利用率随降雨频率的增加呈缓慢上升趋势,而晚稻节水灌溉模式下呈上凸趋势;早稻全生育期和晚稻分蘖期、拔节期径流量很大,对肥料流失产生不利影响。
2.
Being scattered among the agricultural fields,the ponds intercept surface runoff and recycle drainage water for irrigation.
六岔河流域的多数降雨径流被水塘系统截留,减少流域径流输出;在连续流过程中,流域径流峰值急剧降低。
3.
Based on 8 years locating and semilocating observation, changes of rainfall and surface runoff and the relation with rainfall and surface runoff in the typical small valley of reservoir area in Three Gorges within the Yangtze River are analyzed.
根据8年的降雨、径流定位、半定位观测,分析了三峡库区典型流域的降雨、径流变化及降雨对径流的影响。
3)  run off
径流
1.
In this paper,proceeding from the study of water resources utilization of a basin,the methods and steps of establishing the stochastic models of multi-station run off are expounded,and the reliability of the models is yenned in an example.
本文从研究流域水资源出发,阐述了流域多站年、月径流随机生成模型建立的方法步骤,并用实例验证了模型的可靠性。
4)  run-off
径流
1.
Application of Forests to River Run-off and Its Research;
森林对河川径流影响及其研究方法
2.
Through the analysis of factors relating to aquiferous features, contact with water, groundwater recharge, run-off, discharge and groundwater chemical characteristics, we determine the hydrogeological conditions in the NO.
通过对大南湖煤田一井田含水层特征、水力联系、地下水补给、径流与排泄及地下水化学特征等因素的分析,确定该井田水文地质条件类型,为矿床开采提供依据。
5)  streamflow
径流
1.
This paper presents the process of an artificial neural network (ANN) based daily streamflow forecasting model for the Three Gorges Yichang station.
给出了用人工神经网络 (ANN)对三峡宜昌站的日径流预测模型建模的过程 ,对 ANN输入变量的选择和个数的确定以及隐藏层、输出层单元数的确定等关键技术问题进行了探讨。
2.
In order to validate the ability of AVIM to simulate streamflow, the model is applied to the Xilinhe River Basin in the Inner Mongolia.
径流在陆面模式水量平衡计算中占有重要地位,它不但与土壤水的动态变化有关,而且会影响感热,潜热等其他通量的计算结果。
6)  runoff
径流
1.
Phosphorus speciation in the runoff from different land uses in the Liuchahe watershed by Chaohu Lake;
六叉河小流域不同景观结构中径流磷形态差异分析
2.
Effects of Different P Fertilizer Application Rates on Soil Nitrogen and Phosphorus Losses with Surface Runoff during Rice Season;
不同磷水平处理下水稻田磷氮径流流失研究
3.
Study on the phosphorus loss via runoff from paddy field in TaiHu Region using the large catchment area;
利用大型径流场研究太湖地区稻田磷素径流排放
参考词条
补充资料:径流特征值
      河川径流特征的统计值。反映河川径流量随时间变化的统计参数。依据自然现象与工程实用要求,河川径流特征一般指各年的年平均流量、各月的月平均流量,一年中最大的洪水流量,一年中最小的枯水流量。
  
  各种径流特征的数值是随时间而变化的,例如,各年的年平均流量都不相同,各年的最大洪水流量也都不相同。概括的反映这种变化基本特点的统计参数有(相应于各种径流特征的)均值,变差系数,偏差系数和各阶自相关系数。均值反映河川径流量总的蕴藏量多寡,变差系数和偏差系数反映各年间径流量变化幅度的大小,各阶(相隔一年为一阶,相隔两年为二阶,余类推)自相关系数反映相邻年份径流量间相互密切程度。
  
  径流量的表示方法很多,常用的有以下几种:一定时段(如年、月、日等)的径流总量,其单位通常为立方米;一定时段的平均流量=一定时段径流总量/时段长度,通常以米3/秒计;一定时段的流域平均径流深=一定时段径流总量/流域面积,通常以毫米计;一定时段的径流系数=一定时段的流域平均径流深/一定时段的流域平均降雨深。有时也把这些计算径流的单位叫径流特征值。
  

说明:补充资料仅用于学习参考,请勿用于其它任何用途。