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不同融合降水数据驱动的WRF-Hydro模型对中小流域山洪模拟的适用性

齐晟慰谷黄河王玉明杨云孟健余钟波

河海大学学报（自然科学版）2026，Vol.54Issue(2)：45-52,62,9.

河海大学学报（自然科学版）2026，Vol.54Issue(2)：45-52,62,9.DOI:10.3876/j.issn.1000-1980.2026.02.006

不同融合降水数据驱动的WRF-Hydro模型对中小流域山洪模拟的适用性

Applicability of WRF-Hydro model driven by different precipitation fusion data in mountain torrent simulation of medium-and small-sized watersheds

齐晟慰 ¹谷黄河 ¹王玉明 ²杨云 ²孟健 ²余钟波¹

作者信息

1. 河海大学水灾害防御全国重点实验室||河海大学水文水资源学院
2. 杭州市水文水资源监测中心
折叠

摘要

Abstract

The high-precision precipitation fusion products CMORPH and CMFD were used as model inputs,and 18 flood events of the Tunxi Watershed in the upper reaches of the Xin'an River Basin from 2013 to 2018 were taken as the research object.The temporal and spatial distribution characteristics of rainfall by the two precipitation fusion products in the Tunxi Watershed were analyzed,and the applicability of the WRF-Hydro model driven by two types of precipitation fusion data to the simulation of mountain torrent processes in medium-and small-sized watersheds was explored.The results show that compared with the measured precipitation at the site,the CMORPH precipitation product has higher accuracy in terms of peak precipitation values and precipitation amount,while the CMFD product generally overestimates the precipitation amount,especially the peak precipitation values.At the same time,CMORPH precipitation product has higher accuracy on different time scales.In the simulation results based on CMORPH precipitation fusion data,only the Nash coefficient of three flood simulation results is less than 0.8(one of which is less than 0.7),and the total qualified rate is 94%,reaching the grade A accuracy.The total qualified rate of flood simulation based on CMFD precipitation fusion data is 67%,which is grade C accuracy.Moreover,the model's simulation accuracy for large floods is better than that of small flood processes.In general,the WRF-Hydro model driven by high-resolution CMORPH precipitation fusion product can be well applied to mountain torrent process simulation in medium-and small-sized watersheds.

关键词

多源融合降水/CMORPH/CMFD/WRF-hydro模型/山洪模拟

Key words

multi-source precipitation fusion/CMORPH/CMFD/WRF-Hydro model/mountain torrent simulation

引用本文复制引用

齐晟慰,谷黄河,王玉明,杨云,孟健,余钟波..不同融合降水数据驱动的WRF-Hydro模型对中小流域山洪模拟的适用性[J].河海大学学报（自然科学版）,2026,54(2):45-52,62,9.

基金项目

国家自然科学基金项目(42271020,U25A20752) （42271020,U25A20752）

浙江省水利科技计划项目(RA2401) （RA2401）

河海大学学报（自然科学版）

ISSN：1000-1980

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