Page 90 - 2024年第55卷第9期
P. 90
[ 3] XIEY,GUOS,XIONGL,etal.Nonstationarydesignfloodestimationinresponsetoclimatechange,population
growthandcascadereservoirregulation[J].Water,2021,13(19):2687.
[ 4] NEETUS,PENNANC.Non - stationaryfloodfrequencyanalysisandattributionofstreamflowseries:acasestudy
ofPeriyarRiver ,India[J].HydrologicalSciencesJournal,2021,66(13):1866 - 1881.
[ 5] WANGQ,SUNY,GUANQ,etal.Exploringfuturetrendsofprecipitationandrunoffinaridregionsunderdif
ferentscenariosbasedonabias - correctedCMIP6model [J].JournalofHydrology,2024,630:130666.
[ 6] MOC,HUANGK,RUAN Y,etal.Quantifyinguncertaintysourcesinrunoffchangeattributionbasedonthe
Budykoframework [J].JournalofHydrology,2024,630:130790.
[ 7] IONNOA,ARSENAULTR,TROINM,etal.ImpactsofclimatechangeonfloodvolumesoverNorthAmerican
catchments[J].JournalofHydrology,2024,630:130688.
[ 8] CHUH,WEIJ,WANGH,etal.RunoffprojectionintheTibetanPlateauusingalongshort - term memorynet
work - basedframeworkundervariousclimatescenarios [J].JournalofHydrology,2024,632:130914.
[ 9] INGABIRER,曹博,曹建生,等.未来气候变化情景下阜平流域径流变化分析[J].中国生态农业学报,
2022,30(5):851 - 863.
[10] CHILKOTIV,BOLISETTIT,BALACHANDARR.Climatechangeimpactassessmentonhydropowergeneration
usingmulti - modelclimateensemble[J].RenewableEnergy,2017,109:510 - 517.
[11] 张欣.清水河流域水文气象要素演变规律及对气候变化的响应规律研究[D].银川:宁夏大学,2022.
[12] 冯宇.气候变化影响下流域梯级水电站优化调度与系统集成应用研究[D].武汉:华中科技大学,2018.
[13] JEHANZAIBM,SHAH SA,YOOJ,etal.Investigatingtheimpactsofclimatechangeandhumanactivitieson
hydrologicaldroughtusingnon - stationaryapproaches[J].JournalofHydrology,2020,588:125052.
[14] BYUNK,CHIUCM,HAMLETAF.Effectsof21stcenturyclimatechangeonseasonalflowregimesandhydro
logicextremesovertheMidwestandGreatLakesregionoftheUS[J].ScienceoftheTotalEnvironment,2019,
650:1261 - 1277.
[15] YANL,XIONGL,GUOS,etal.Comparisonoffournonstationaryhydrologicdesignmethodsforchangingenvi
ronment [J].JournalofHydrology,2017,551:132 - 150.
[16] ZHANGQ,GUX,SINGHVP,etal.Evaluationoffloodfrequencyundernon - stationarityresultingfromclimate
indicesandreservoirindicesintheEastRiverbasin,China[J].JournalofHydrology,2015,527:565 - 575.
[17] 杜涛.气候变化背景下非一致性设计洪水流量研究[D].武汉:武汉大学,2016.
[18] 成静清,宋松柏.基于混合分布非一致性年径流序列频率参数的计算[J].西北农林科技大学学报(自然科
学版),2010,38(2):229 - 234.
[19] YANB,MUR,GUOJ,etal.Floodriskanalysisofreservoirsbasedonfull - seriesARIMAmodelunderclimate
change[J].JournalofHydrology,2022,610:127979.
[20] HUY,LIANGZ,HUANGY,etal.Anonstationarybivariatedesignfloodestimationapproachcoupledwiththe
mostlikelyandexpectationcombinationstrategies[J].JournalofHydrology,2022,605:127325.
[21] GOPALANSP,CHAMPATHONGA,SUKHAPUNNAPHANT,etal.Potentialimpactofdiversioncanalsand
retentionareasasclimatechangeadaptationmeasuresonfloodriskreduction :Ahydrologicalmodellingcasestudy
from theChaoPhrayaRiverBasin,Thailand[J].ScienceoftheTotalEnvironment,2022:156742.
[22] 杜涛,熊立华,李帅,等.基于风 险 的 非 一 致 性 设 计 洪 水 及 其 不 确 定 性 研 究 [J].水 利 学 报,2018,49
(2):241 - 253.
[23] SINGHVP,WANGSX,ZHANGL.Frequencyanalysisofnonidenticallydistributedhydrologicflooddata - Sci
enceDirect [J].JournalofHydrology,2005,307(1):175 - 195.
[24] 尚晓三,王栋.考虑不定量历史洪水的水文频率参数贝叶斯估计[J].水力发电学报,2015,34(10):35 - 41.
[25] 张丽娟,陈晓宏,叶长青,等.考虑分组历史洪水的超定量洪水频率分析[J].水力发电学报,2014,33
(4):14 - 20.
[26] 张丽娟,陈晓宏,叶长青,等.考虑历史洪水的武江超定量洪水频率分析[J].水利学报,2013,44(3):
268 - 275.
[27] 黄凯,冯平.基于非一致性水文序列的水库极限防洪风险复核分析[J].水 力 发 电 学 报,2016,35(1):
28 - 37.
0
— 1 9 5 —
