1.
Method Improvement of the Parallel Computing for the Large-scale Basin Hydrology
大尺度流域水文并行计算的方法改进
2.
Multi-tree Coupling Method of High Resolution Drainage Network Extraction on Large-scale Basin
大尺度流域高分辨率河网提取的多叉树耦合方法
3.
Meso-scale characteristics analysis of a flash flood-inducing rainstorm over Huaihe River Basin
淮河流域一次致洪大暴雨的中尺度特征分析
4.
Scale Characteristics and Decomposition of Drainage Gully Network Based on DEM;
基于DEM的流域沟谷网络尺度特征及尺度分解
5.
Discussion on Multiple Time Scales of Runoff Variation in the Nenjiang River Basin
嫩江流域径流量多时间尺度特征分析
6.
Mesoscale Observational Analysis and Numerical Simulation of a Heavy Rainfall Event in the Huaihe River Basin in July 2007;
2007年7月淮河流域一次大暴雨的中尺度观测分析和数值模拟
7.
Analysis on Variation Characteristics and Tendency of Runoff and Sediment at Different Time-scale in Dali River Basin
大理河流域不同时间尺度水沙变化影响因素及趋势研究
8.
Quantitative Analysis on Large Scale Circulation System Modulating Landfalling Tropical Cyclone Activities in the Diverse Chinese Regions
影响登陆我国不同区域热带气旋活动的大尺度环流定量分析
9.
Study on the Feasibility of SWAT Model on Small Scale Basin;
SWAT模型小尺度流域模拟的适宜性研究
10.
Application of SCS model to hydrological simulation at an agricultural watershed scale
SCS模型在流域尺度水文模拟中的应用
11.
Application of remote sensing technology to estimate river basin evapotranspiration
应用遥感技术反演流域尺度的蒸散发
12.
On Landscape Pattern Vertical Differentiation in Mountainous Area at Watershed Scale
流域尺度山区景观格局垂直分异研究
13.
Analysis of Predictability and Time Scales for the Nenjiang River Runoff
嫩江流域径流的可预报性及其时间尺度分析
14.
Multiscale Circulation Features of Heavy Rain over Huaihe River Basin in Rainy Season in 2007
2007年淮河流域雨季暴雨多尺度环流分析
15.
Spatial variability of karst soil pH on drainage basin scale--A case in Xiaojiang basin,Yunnan
流域尺度的岩溶区土壤pH值空间变异研究——以云南小江流域为例
16.
A time-domain analysis of wave force on small-scale cylinders nearby a large object
大尺度结构物附近小尺度杆件上波浪力的时域分析
17.
Irrigation Water Balance at Basin Level and Food Security in China;
我国流域尺度上的灌溉水平衡与粮食安全保障
18.
A Research on 1:50000 Regional Soil and Water Loss Topographic Factors Based on DEM;
基于DEM的1:50000区域尺度水土流失地形因子研究