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基于分布式水文模型的小流域山洪预报方法与应用

Flash flood forecasting method based on Distributed Hydrological Models in a small basin and its application

  • 摘要: 无资料小流域山洪预报一直是流域洪水预报中面临的复杂难题。本文将引入基于新安江水文模型建立的分布式混合产流水文模型(Grid-and-Mixed-runoff-generation-and-Kinematic-wave-based Hydrological Model,GMKHM),研究无资料小流域山洪预报方法,并将GMKHM模型与DEM(Digital Elevation Model)、RS技术相结合,以DEM栅格为计算单元,在栅格内进行植被冠层截留、蒸(散)发、产流与分水源计算;流域产流采用混合产流模型计算,坡面汇流和河道汇流均采用基于栅格单元的分布式运动波模型水流演算,将GMKHM模型和分布式新安江水文模型同时应用于2009年汛期嘉陵江乔庄河支流大沟小流域山洪预报试验。结果表明,两个分布式水文模型的模拟预报精度较高,均可用于该流域山洪预报,其中GMKHM分布式水文模型在洪峰模拟上稍好于分布式新安江水文模型。

     

    Abstract: Rainfall runoff simulation and flood forecasting of an ungauged small basin is a complex forecasting problem. In this paper, we introduced the Grid-and-Mixed-runoff-generation-and-Kinematic-wave-based Hydrological Model (GMKHM model) for flash flood forecasting of a small ungauged basin. For each hydrological cell based on DEM (Digital Elevation Model) and RS technique, the net rainfall after canopy interception and evapotranspiration calculations is used for runoff generation and separation module in the GMKHM model. The mixed runoff generation model is applied for runoff generation computation, and overland and channel flows are routed by one-dimensional implicit finite difference kinematic wave flow model. The GMKHM model and the Xin′ anjiang distributed hydrological model were employed to Dagou Basin of Jialingjiang River for flash flood forecasting test in the 2009 flood season. Results show that the two distributed hydrological models perform well, and the flood peak simulation accuracy of the GMKHM model is better.

     

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