摘要
为提高山洪灾害预警精度,以彭坊小流域为例,基于概率分布等控制条件生成随机雨型,探究不同前期影响雨量下随机雨型对山洪预警临界雨量的影响,进一步分析降雨空间分布对山洪预警临界雨量的影响。结果表明:在雨峰位置偏后、雨峰峰值较大的雨型集下,临界雨量波动较大,有较高的不确定性;雨型对临界雨量的影响小于前期影响雨量对临界雨量的影响,在前期土壤较干燥时,雨峰位置系数较小,临界雨量值相对较大,雨型峰值倍比较大时,临界雨量值相对较小,更容易致灾;在降雨空间分布上,当降雨集中在下游时,临界雨量值最小,越容易达到警戒流量,但降雨空间分布对临界雨量的影响小于前期影响雨量的影响,且这种影响会随前期影响雨量的增加而不断减小。
Mountain flood disasters generally refer to floods,landslides,and debris flows hazards caused by rainfall and snowmelt.They are characterized by their suddenness and devastating impact.Critical rainfall is a commonly used indicator for mountain flood disaster early warning,indicating that when the rainfall reaches a certain threshold within a certain period,the flow at the outlet of the watershed will exceed the warning flow,resulting in disastrous flooding.These disasters have caused severe social problems.It poses a significant threat to people's lives and property.So optimizing mountain flood early warning and addressing the shortcomings in flood control and disaster reduction are crucial steps in social development.Critical rainfall,as the most commonly used indicator for mountain flood early warning,has been studied by numerous scholars both domestically and internationally.However,there is limited research on the comprehensive consideration of the influence of random rainfall patterns and spatial distribution under different antecedent rainfall conditions on the critical rainfall for mountain flood early warning.To address these issues,the Pengfang small watershed is focused on as the research area and random rainfall patterns are generated,based on control conditions such as probability distribution functions.Based on the historical rainfall data from the Pengfang small watershed,the optimal distribution functions for the five sets of random rainfall patterns were as follows:Normal,Normal,Exponential,Normal,Exponential and Gamma distributions.The control conditions for these distribution functions were(0.50,0.32),(0.50,0.42),(0.50,0.52),(0.17,0.32),and(0.83,0.32)respectively.The influence of different sets of random rainfall patterns is explored,considering different antecedent rainfall conditions,on the 6-hour critical rainfall for mountain flood early warning.Furthermore,the impact of rainfall spatial distribution on the 6-hour critical rainfall is also analyzed.The results are as follows:(1)Under rainfa
作者
王元疆
江善虎
凌子涵
陈宏新
张晓祥
任立良
WANG Yuanjiang;JIANG Shanhu;LING Zihan;CHEN Hongxin;ZHANG Xiaoxiang;REN Liliang(The National Key Laboratory of Water Disaster Prevention,Hohai University,Nanjing 210098,China;College of Hydrology and Water Resources,Hohai University,Nanjing 210098,China;Nanjing Nanrui Electric Technology Co.,Ltd,Nanjing 211000,China)
出处
《南水北调与水利科技(中英文)》
CAS
CSCD
北大核心
2024年第1期90-98,共9页
South-to-North Water Transfers and Water Science & Technology
基金
国家自然科学基金项目(51979069)
中央高校基本科研业务费项目(B200204029)。
关键词
山洪
临界雨量
前期影响雨量
随机雨型
降雨空间分布
flash flood
critical rainfall
antecedent rainfall
random rainfall pattern
rainfall spatial distribution
