Review on Nonstationary Hydrological Frequency Analysis under Changing Environments
作者: 立华 熊
关键词: Econometrics 、 Computer science 、 Frequency analysis
摘要: 水文频率分析计算是水利工程规划设计、施工以及运行管理的基础工作,传统的水文频率分析计算的一个基本前提是水文序列满足一致性假设。近几十年来,受气候变化和人类活动影响,许多河流的径流序列存在非一致性,导致传统基于一致性假设的水文频率计算方法的适用性受到严峻挑战,因此研究非一致性条件下水文频率分析方法具有重要的意义。本文在总结了国内外最新的非一致水文序列频率分析研究成果的基础上,将该研究方向的研究重点、难点和热点归纳为如下四方面:1) 单变量水文序列的非一致性诊断;2) 单变量水文序列非一致性的数学描述与归因分析;3) 非一致性条件下的单变量随机事件重现期定义和估计;4) 多变量非一致水文序列的频率分析。最后,针对这些问题,对今后的研究进行了展望。 The assumption of stationarity is a basic premise behind conventional hydrological frequency analysis for design water resources projects. Under changing environments, series in many rivers have been found to exhibit nonstationarity. As result, the methods hy-drological based on may be invalid. In recent years, fre-quency nonstationary has attracted much attention. this paper, re-searches are briefly reviewed terms four aspects: 1) detection nonstationarity univariate series; 2) mathematical description and physical attribution 3) definition calculation return period events under conditions; 4) multivariate series. Finally, some perspectives presented further de-velopment improvement analysis.
sci-hub.st 参考文章(54)
Tao Du, Lihua Xiong, Chong-Yu Xu, Christopher J. Gippel, Shenglian Guo, Pan Liu, Return period and risk analysis of nonstationary low-flow series under climate change Journal of Hydrology. ,vol. 527, pp. 234- 250 ,(2015) , 10.1016/J.JHYDROL.2015.04.041
G. Salvadori, C. De Michele, Multivariate multiparameter extreme value models and return periods: A copula approach Water Resources Research. ,vol. 46, ,(2010) , 10.1029/2009WR009040
Gabriele Villarini, Francesco Serinaldi, James A. Smith, Witold F. Krajewski, On the stationarity of annual flood peaks in the continental United States during the 20th century Water Resources Research. ,vol. 45, ,(2009) , 10.1029/2008WR007645
Carlo de Michele, Nathabandu T. Kottegoda, Renzo Rosso, Gianfausto Salvadori, Extremes in Nature: An Approach Using Copulas Extremes in Nature: An Approach Using Copulas. ,(2007)
Anne-Catherine Favre, Salaheddine El Adlouni, Luc Perreault, Nathalie Thiémonge, Bernard Bobée, Multivariate hydrological frequency analysis using copulas Water Resources Research. ,vol. 40, ,(2004) , 10.1029/2003WR002456
Dedi Liu, Shenglian Guo, Yanqing Lian, Lihua Xiong, Xiaohong Chen, Climate‐informed low‐flow frequency analysis using nonstationary modelling Hydrological Processes. ,vol. 29, pp. 2112- 2124 ,(2015) , 10.1002/HYP.10360
W.G. Strupczewski, V.P. Singh, W. Feluch, Non-stationary approach to at-site flood frequency modelling I. Maximum likelihood estimation Journal of Hydrology. ,vol. 248, pp. 123- 142 ,(2001) , 10.1016/S0022-1694(01)00397-3
Salvatore Grimaldi, Francesco Serinaldi, Asymmetric copula in multivariate flood frequency analysis Advances in Water Resources. ,vol. 29, pp. 1155- 1167 ,(2006) , 10.1016/J.ADVWATRES.2005.09.005
Francesco Serinaldi, Salvatore Grimaldi, Fully Nested 3-Copula: Procedure and Application on Hydrological Data Journal of Hydrologic Engineering. ,vol. 12, pp. 420- 430 ,(2007) , 10.1061/(ASCE)1084-0699(2007)12:4(420)
T. M. L. Wigley, The effect of changing climate on the frequency of absolute extreme events Climatic Change. ,vol. 97, pp. 67- 76 ,(2009) , 10.1007/S10584-009-9654-7