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基于拉格朗日插值法修正地形影响的分布式降水模型研究 被引量:4
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作者 张升堂 康绍忠 《水文》 CSCD 北大核心 2004年第6期6-9,共4页
降水量一直是进行水文分析计算的输入项,对其分布状况的模拟直接影响水文分析成果精度。降水中心位置及其中心降水量对暴雨分析尤为重要,而目前尚未见对降水中心位置方面的模型研究。在对目前国内外降水模型分析的基础上,根据天气系统... 降水量一直是进行水文分析计算的输入项,对其分布状况的模拟直接影响水文分析成果精度。降水中心位置及其中心降水量对暴雨分析尤为重要,而目前尚未见对降水中心位置方面的模型研究。在对目前国内外降水模型分析的基础上,根据天气系统降水如不受地形影响其降水量等值线在平面上的分布近似为一组同心椭圆这一原理,建立了一种能够模拟次降水过程的降水中心位置及其中心降水量的新型分布式降水数学模型,并对其进行地形影响因素修正。由于模型建立原理简单,易于实现对流域未设站研究点的实时降水量估计,同时由于模型能够指明降水中心位置及其中心降水量,因此在流域暴雨分析和洪水预报中具有实用价值。模型经实践检验具有较高精度。 展开更多
关键词 分布式降水模型 中心位置 中心降水 拉格朗日插值法
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Full 2D Hydrodynamic Modelling of Rainfall-induced Flash Floods 被引量:6
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作者 HUANG Wei CAO Zhi-xian +2 位作者 QI Wen-jun Gareth PENDER ZHAO Kai 《Journal of Mountain Science》 SCIE CSCD 2015年第5期1203-1218,共16页
Mountain catchments are prone to flash flooding due to heavy rainfall. Enhanced understanding of the generation and evolution processes of flash floods is essential for effective flood risk management. However, tradit... Mountain catchments are prone to flash flooding due to heavy rainfall. Enhanced understanding of the generation and evolution processes of flash floods is essential for effective flood risk management. However, traditional distributed hydrological models based on kinematic and diffusion wave approximations ignore certain physical mechanisms of flash floods and thus bear excessive uncertainty. Here a hydrodynamic model is presented for flash floods based on the full two-dimensional shallow water equations incorporating rainfall and infiltration. Laboratory experiments of overland flows were modelled to illustrate the capability of the model. Then the model was applied to resolve two observed flash floods of distinct magnitudes in the Lengkou catchment in Shanxi Province, China. The present model is shown to be able to reproduce the flood flows fairly well compared to the observed data. The spatial distribution of rainfall is shown to be crucial for the modelling of flash floods. Sensitivity analyses of the model parameters reveal that the stage and discharge hydrographs are more sensitive to the Manning roughness and initial water content in the catchment than to the Green-Ampt head. Most notably, as the flash flood augments due to heavier rainfall, the modelling results agree with observed data better, which clearly characterizes the paramount role of rainfall in dictating the floods. From practical perspectives, the proposed model is more appropriate for modelling large flash floods. 展开更多
关键词 Flash flood Full hydrodynamic model Spatial distribution RAINFALL
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