南京大学学报(自然科学版)
南京大學學報(自然科學版)
남경대학학보(자연과학판)
JOURNAL OF NANJING UNIVERSITY(NATURAL SCIENCES)
2009年
6期
790-801
,共12页
董全%陈星%陈铁喜%程兴无
董全%陳星%陳鐵喜%程興無
동전%진성%진철희%정흥무
淮河流域%广义帕累托分布(GPD)%月流量%极端降水
淮河流域%廣義帕纍託分佈(GPD)%月流量%極耑降水
회하류역%엄의파루탁분포(GPD)%월류량%겁단강수
Huaihe river basin%generalized Pareto distribution%monthly discharge%extreme precipitation
通过对淮河流域各气象站月降水和水文站月流量的广义帕累托分布(generalized Pareto Distribution)(GPD)函数拟合,分析比较了二者概率分布特征之间的异同,尤其对二者极端事件灾害风险之间的异同进行了定量化的对比分析.指出淮河流域月降水的概率函数特征在整个区域上具有相似性,接近于指数分布.而月流量相对于月降水概率分布更分散,并且其特征在流域上游和中游存在一定差异.由此发现,在水文循环过程中,淮河河流在区域尺度上可以减低由极端降水事件引发河流洪涝灾害的风险.这一作用在上游表现更为显著.往下游随着流域面积的不断扩大,这一作用逐渐减小,极端月流量事件发生的风险趋近于极端月降水事件.这一结论对于淮河流域天然河道与水利设施在淮河治理中的作用和洪涝治理规划具有参考意义.
通過對淮河流域各氣象站月降水和水文站月流量的廣義帕纍託分佈(generalized Pareto Distribution)(GPD)函數擬閤,分析比較瞭二者概率分佈特徵之間的異同,尤其對二者極耑事件災害風險之間的異同進行瞭定量化的對比分析.指齣淮河流域月降水的概率函數特徵在整箇區域上具有相似性,接近于指數分佈.而月流量相對于月降水概率分佈更分散,併且其特徵在流域上遊和中遊存在一定差異.由此髮現,在水文循環過程中,淮河河流在區域呎度上可以減低由極耑降水事件引髮河流洪澇災害的風險.這一作用在上遊錶現更為顯著.往下遊隨著流域麵積的不斷擴大,這一作用逐漸減小,極耑月流量事件髮生的風險趨近于極耑月降水事件.這一結論對于淮河流域天然河道與水利設施在淮河治理中的作用和洪澇治理規劃具有參攷意義.
통과대회하류역각기상참월강수화수문참월류량적엄의파루탁분포(generalized Pareto Distribution)(GPD)함수의합,분석비교료이자개솔분포특정지간적이동,우기대이자겁단사건재해풍험지간적이동진행료정양화적대비분석.지출회하류역월강수적개솔함수특정재정개구역상구유상사성,접근우지수분포.이월류량상대우월강수개솔분포경분산,병차기특정재류역상유화중유존재일정차이.유차발현,재수문순배과정중,회하하류재구역척도상가이감저유겁단강수사건인발하류홍로재해적풍험.저일작용재상유표현경위현저.왕하유수착류역면적적불단확대,저일작용축점감소,겁단월류량사건발생적풍험추근우겁단월강수사건.저일결론대우회하류역천연하도여수리설시재회하치리중적작용화홍로치리규화구유삼고의의.
The extreme monthly precipitation and discharge in the Huaihe river basin are fitted by the generalized Pareto distribution (GPD) function, and the fitted parameters of GPD are analyzed and compared. The characteristics of probability functions of the extreme monthly precipitation are similar in the whole Huaihe river basin, and it is denoted that the features of precipitation in Huaihe river basin are the same. And there are some differences between the upper and middle reaches in the characteristics of probability functions of the extreme monthly discharge. The curve-fitted shape parameters of the extreme monthly discharge are larger than those of the extreme monthly precipitation. It means that the return period of the extreme monthly precipitation events is longer than the return period of the extreme monthly discharge events for the same intensity. So the natural rivers and hydraulic engineering can adjust the process of natural hydrological cycle and reduce the risk of flooding disaster resulting from the extreme precipitation events in the regional scale. This effect is more significant in the upper reaches and weakens in the middle reaches as the basin area increases, and the risks of the extreme monthly discharge events and precipitation events are closer over lower reaches. This conclusion is useful for natural rivers and hydraulic engineering planning and the flood controlling in the Huaihe river basin.