摘要
应用分布式水文模型DEHYDROS进行了河套灌区的水文学过程模拟研究。结合灌区渠系分布特点及水资源利用状况,将灌区划分为11个子流域。应用1986年、2000年土地利用数据,采用1991年~2000年间的数据系列对模型进行参数率定,1980年~1990年的数据系列对模型进行了验证,结果表明选取的参数是可以接受的。根据模型多年模拟的平均结果,蒸散量多年均值为39.0×108m3,渗漏量多年均值为13.0×108m3,系统排水量为77.8×108m3,降水产生径流微弱;灌区多年平均引水量为51.4×108m3,引水通过灌溉渠系和灌溉的方式大量补给地下水,地下水蒸发与基流在地下水排泄中都占有较大比重,地下水蒸发年均值为15.0×108m3。基流量占总水量支出的比例达到43%,仅次于区域蒸散量,对于维持乌梁素海湿地有重要意义,同时也表明灌区的地下水有相当大的开采潜力。
Hetao Irrigation District (HID) is located in Inner Mongolia of China and has an area of approximately 1.1 million ha. It is one of the biggest irrigation diversions in the upper reach of the Yellow River. DEHydroS, a distributed eco-hydrological simulator developed for irrigation districts was applied in this study. This model was developed with the code of CERES-Wheat and Maize, SWAT2000, MODFLOW96, and SWATMOD99. The hydrological components of DEHydroS were used without taking groundwater dynamics component into consideration in this study. Based on the model, the whole irrigation district was divided into 11 sub-basins. Data from 1991 to 2000 were used in calibration and those from 1980 to 1990 were used in validation. Data from 1961 to 2000 were used to investigate the hydrological cycling in the long run. The calibration and validation results showed that DEHYDROS model was applicable in irrigation districts, and the parameters calibrated were acceptable in HID. According to the simulating results for 40 years, the mean evapotranspiration amount was 3.9 billion cubic meters; the mean soil percolation was 1.3 billion cubic meters; the discharge of HID was 7.78 billion cubic meters; and the runoff resulting from precipitation was very little. The annual average water diversion from the Yellow River was 5.14 billion cubic meters, and canal seepage and percolation from soil profile took important part in recharging the shallow groundwater. Groundwater evaporation was very important for supplying water to crop water uptake, and the annual average value amounted to 1.5 billion cubic meters. Baseflow accounted for 43 percent of the total discharge, second to that of evapotranspiration. These results indicated the feasibility of making comprehensive use of surface, soil and ground water information to provide a more physical-based assessment of regional hydrological dynamics.
出处
《资源科学》
CSSCI
CSCD
北大核心
2009年第5期763-771,共9页
Resources Science
基金
国家自然科学基金项目(编号:90502005)
科技部863项目(编号:2007AA10Z223)
关键词
SWAT
水文模型
水循环
内蒙古河套灌区
SWAT
Hydrological model
Water cycle
Hetao Irrigation District of Inner Mongolia
