Abstract: SWAT (Soil and Water Assessment Tool) model is an advanced, physically based, distributed hydrological model that is integrated with Remote Sensing (RS), Geographic Information System (GIS) and Digital Elevation Model (DEM) techniques. In order to impel its application study in China and improve the simulation precision of the model in hydrological process studies, some expansions and improvements were made to the modeling system for the real conditions on arid, semi-arid Heihe River Basin in the northwestern China and humid Hanjiang River Basin in middle-western China. Firstly, soil grain size transferring module and data pre-processing module for weather generator (WGEN) were added to original SWAT model to encounter the inconsistent problems existed in data standard utilized in Euramerican and Chinese systems. And then the further improvements to the model were done focusing on: 1) three new spatial interpolation methods, including Inverse Distance Weighing method (IDW), Thiessen polygonal method and DEM-based PRISM method, were used as a new choice to replace the original interpolation method that takes the meteorological data from the nearest weather station as the representative weather data for each sub-basin. 2) An advanced approach was proposed to modify the original method in daily maximum and minimum temperature estimations in SWAT for avoiding the logical mistakes in temperature simulations. 3) An areal evapotranspiration estimation module based on improved Penman-Monteith method was developed to replace the original approaches used in SWAT. At last the offline experiment on rainfall-runoff simulations were conducted using the meteorological, land use/cover and soil data from the Jiangkou Basin, the Hanjiang River by means of the improved SWAT model and its original version. The detailed study suggested a significant improvement of modeling performance by the fact that in model calibration period, the Nash-Sutcliffe Criterion (NSC) and correlation coefficient were improved from 0.47 and 0.79 to 0.92 and 0.98 respectively, while in validation period, they were improved from 0.08 and 0.68 to 0.94 and 0.97 accordingly. The improved SWAT model and its software packs will impel the application studies in the relevant disciplines in China.