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1.
基于分布式水文模型的中小河流洪水预报技术   总被引:4,自引:3,他引:1  
中小河流大多位于资料短缺的山丘区,洪水具有突发性强、汇流时间快、预见期短以及分布广的特点。中小河流洪水预报首要目的和任务是预警预报,预报方式应以自动预报为主,以实现及时预警,最大程度地避免人员伤亡,减轻灾害损失。本文分析了中小河流洪水预报的特点与难点,提出了中小河流洪水预报的思路及实用预报模型与方法,开展了基于分布式水文模型的中小河流洪水预报技术在新安江上游屯溪流域预警预报中的应用研究,以期为当前所开展的全国中小河流洪水预警预报系统建设提供参考。研究表明:分布式水文模型是资料短缺地区中小河流洪水预报的有效方法,基于分布式水文模型的洪水预报技术能够满足中小河流洪水自动预警预报的生产需要。  相似文献   

2.
杨静波  吴立愿  许钦  金君良 《水文》2021,41(2):51-55,100
随着全国中小河流水文监测工程项目的实施以及国家、广西水情预警发布管理办法的出台,在洪涝频繁、中小河流站点点多面广的新形势下,如何实现广西河流预报任务由传统的预报增加至预警、预报双重要求成为近年来工作中迫切要解决的问题。基于水量平衡原理及洪水水位涨率变化规律分析研究,根据“预测-预警-预报”河流预报模式,研究开发了适应此模式的河流预报方法和技术。2015年以来,此模式及方法技术广泛应用于广西河流预报中,实现大江大河、中小河流洪水科学预测预警预报,水文预报合格率均超过90%。同时有效延长洪水预见期,大江大河洪水预见期平均提前24h,中小河流洪水预见期平均提前5h。  相似文献   

3.
以山洪影响调查成果为基础,评价了昌江芦溪河段受洪水影响的程度,建立了水位预警指标体系和水文预报模型。得出的主要结论有:昌江芦溪河段洪水影响机率不到5年一遇,罗村最典型,个别年份重复受灾,属典型的山洪影响威胁区;以既有水文站点为基础,建立了水文站点的水位与上下游村落淹没基础信息的量化关联,形成"1对N"的预警关联体系,标定了集合对象的成灾水位(75.50m),分析结论与实际调查结果吻合;研究了昌江流域产汇流规律,建立了预报模型。本文的评价思路与预警体系构架方法可以作为完善山洪灾害非工程措施、中小河流水文监测系统实际应用的参考,对各地正在开展的山洪灾害调查评价工作具有参考意义。  相似文献   

4.
《地下水》2021,(3)
无资料地区水文研究在我国仍然处在比较基础的发展阶段,而受到人类频繁活动以及多样化地质因素影响,即便在无资料区域仍然频发地质灾害,尤其是在中小河流域中设置的水文站点数量少,缺少实测水文资料,无法采用传统方法预警山洪灾害。以ArcGIS技术构建起一种预警预报系统可以对无资料地区小流域山洪灾害发生提供有效预警。通过引入具体的地区构建山洪预警系统,再引入计算方法,可及时得到成灾地区的流量与水位信息,为无资料区域的小流域地区更好预防山洪灾害发生提供有效的解决方法。该研究方法希望可以更好地帮助预测山洪灾害发生,减少经济与人员损失。  相似文献   

5.
中小河流洪水预报研究进展   总被引:1,自引:0,他引:1       下载免费PDF全文
中小河流洪水预报是当前国际水文科学中亟待研究的重大科学问题之一。由于中小河流存在分布广、降水及下垫面空间异致性强、产汇流时间短、突发性强、水文资料欠缺等特点,因此预报精度较低,预见期短,预报难度大。目前国内外学者对中小河流洪水预报开展了一定的研究,主要集中在中小河流洪水形成机理、洪水预报模型、缺资料中小河流水文模型参数确定方法、洪水预报耦合降水预报等方面。对中小河流洪水预报相关研究进展和存在的问题进行了总结,并指出未来在多源信息高效融合、精细化洪水模拟、高精度降水预报等方面还应进行更深入的研究。  相似文献   

6.
山洪预报预警技术研究进展   总被引:5,自引:1,他引:4       下载免费PDF全文
李红霞  覃光华  王欣  缪韧  刘盈斐 《水文》2014,34(5):12-16
山洪预报预警研究是实施山洪灾害防治的重要科学支撑。目前国内外学者对山洪预报预警技术的研究主要集中在山洪预警指标、山洪预报预警模型以及山洪灾害风险分析等方面,本文对山洪预报预警技术相关研究进展进行了总结,并指出未来在山洪灾害监测、山洪预报预警模型研制、多元信息融合技术、结合山洪特点和区划有针对性进行预报预警等方面还应进行更深入的研究。  相似文献   

7.
大凌河是辽宁省朝阳市内最大的一条河流,也是我国东北地区独流入海的较大河流之一。本文以朝阳市大凌河流域为研究对象,通过构建大凌河流域水文气象预报系统,基于GIS技术,对该研究区内水文气象、定量降水、洪水情况展开监测、估算与预报和预警。在此技术基础上,采用雷达估算降水技术、中尺度数值资料,科学获取朝阳市高时空分辨率的区域降水信息,对大凌河流域水文气象情况进行及时、动态、全面监测预警。  相似文献   

8.
《地下水》2021,(5)
为推进山洪灾害监测预报预警工作,本文在分析山洪灾害需求的基础上,提出省级山洪灾害监测预报预警系统构架方案的设计思路,通过运用云计算、大数据和移动互联网技术,基于SOA架构,采用B/S模式,建设适应Web和移动终端的山洪灾害监测预报预警信息平台。并从应用软件开发技术路线、前端微应用、服务式地理信息系统技术、云运维平台建设等方面,对方案建设的可行性进行了探讨,为推进该项目建设提供了科学支撑。  相似文献   

9.
以歇马沟"15.07"暴雨洪水为例,对辖区水文站未控地区进行暴雨洪水调查,分析暴雨和洪水产生的原因,计算暴雨和洪水重现期。提出应在中小河流加密站网密度,优化降水站网,提高水文监测质量,提高预警预测能力,为防汛减灾,水资源的合理利用提供及时准确地资料。  相似文献   

10.
胡余忠  汪朝霞  周斌  江世启 《水文》2019,39(1):27-32
以新建的中小河流水文站点如何快速有效发挥减灾预警作用为切入点,采用山洪灾害调查评价的技术路线,以安徽省皖南山区石台县中心城区新建水文站点为例,调查了预警河段历史洪水信息,采集了沿河两岸居住地房屋基础高程,建立预警站点与影响人口的关联关系,并基此确定水文站点的特征水位以及基于现状防洪能力的雨量预警指标体系,确定警戒水位54.0m、保证水位55.3m。1h流域平均净雨强度70mm/hr,或6h面平均雨量110mm为致灾临界雨量阈值。  相似文献   

11.
Flood is the worst weather-related hazard in Taiwan because of steep terrain and storm. The tropical storm often results in disastrous flash flood. To provide reliable forecast of water stages in rivers is indispensable for proper actions in the emergency response during flood. The river hydraulic model based on dynamic wave theory using an implicit finite-difference method is developed with river roughness updating for flash flood forecast. The artificial neural network (ANN) is employed to update the roughness of rivers in accordance with the observed river stages at each time-step of the flood routing process. Several typhoon events at Tamsui River are utilized to evaluate the accuracy of flood forecasting. The results present the adaptive n-values of roughness for river hydraulic model that can provide a better flow state for subsequent forecasting at significant locations and longitudinal profiles along rivers.  相似文献   

12.
Flash flood disaster is a prominent issue threatening public safety and social development throughout the world, especially in mountainous regions. Rainfall threshold is a widely accepted alternative to hydrological forecasting for flash flood warning due to the short response time and limited observations of flash flood events. However, determination of rainfall threshold is still very complicated due to multiple impact factors, particular for antecedent soil moisture and rainfall patterns. In this study, hydrological simulation approach (i.e., China Flash Flood-Hydrological Modeling System: CNFF-HMS) was adopted to capture the flash flood processes. Multiple scenarios were further designed with consideration of antecedent soil moisture and rainfall temporal patterns to determine the possible assemble of rainfall thresholds by driving the CNFF-HMS. Moreover, their effects on rainfall thresholds were investigated. Three mountainous catchments (Zhong, Balisi and Yu villages) in southern China were selected for case study. Results showed that the model performance of CNFF-HMS was very satisfactory for flash flood simulations in all these catchments, especially for multimodal flood events. Specifically, the relative errors of runoff and peak flow were within?±?20%, the error of time to peak flow was within?±?2 h and the Nash–Sutcliffe efficiency was greater than 0.90 for over 90% of the flash flood events. The rainfall thresholds varied between 93 and 334 mm at Zhong village, between 77 and 246 mm at Balisi village and between 111 and 420 mm at Yu village. Both antecedent soil moistures and rainfall temporal pattern significantly affected the variations of rainfall threshold. Rainfall threshold decreased by 8–38 and 0–42% as soil saturation increased from 0.20 to 0.50 and from 0.20 to 0.80, respectively. The effect of rainfall threshold was the minimum for the decreasing hyetograph (advanced pattern) and the maximum for the increasing hyetograph (delayed pattern), while it was similar for the design hyetograph and triangular hyetograph (intermediate patterns). Moreover, rainfall thresholds with short time spans were more suitable for early flood warning, especially in small rural catchments with humid climatic characteristics. This study was expected to provide insights into flash flood disaster forecasting and early warning in mountainous regions, and scientific references for the implementation of flash flood disaster prevention in China.  相似文献   

13.
A review of advances in China’s flash flood early-warning system   总被引:1,自引:0,他引:1  
This paper summarizes the main flash flood early-warning systems of America, Europe, Japan, and Taiwan China and discusses their advantages and disadvantages. The latest development in flash flood prevention is also presented. China’s flash flood prevention system involves three stages. Herein, the warning methods and achievements in the first two stages are introduced in detail. Based on the worldwide experience of flash flood early-warning systems, the general research idea of the third stage is proposed from the viewpoint of requirements for flash flood prevention and construction progress of the next stage in China. Real-time dynamic warning systems can be applied to the early-warning platform at four levels (central level, provincial level, municipal level, and county level) . Through this, soil moisture, peak flow, and water level can be calculated in real-time using distributed hydrological models, and then flash flood warning indexes can be computed based on defined thresholds of runoff and water level. A compound warning index (CWI) can be applied to regions where rainfall and water level are measured by simple equipment. In this manner, flash-flood-related factors such as rainfall intensity and antecedent and cumulative rainfall depths can be determined using the CWI method. The proposed methodology for the third stage could support flash flood prevention measures in the 13th 5-Year Plan for Economic and Social Development of the People’s Republic of China (2016–2020). The research achievements will serve as a guidance for flash flood monitoring and warning as well as flood warning in medium and small rivers.  相似文献   

14.
In recent decades, population growth associated with unplanned urban occupation has increased the vulnerability of the Brazilian population to natural disasters. In susceptible regions, early flood forecasting is essential for risk management. Still, in Brazil, most flood forecast and warning systems are based either on simplified models of flood wave propagation through the drainage network or on stochastic models. This paper presents a methodology for flood forecasting aiming to an operational warning system that proposes to increase the lead time of a warning through the use of an ensemble of meteorological forecasts. The chosen configuration was chosen so it would be feasible for an operational flood forecast and risk management. The methodology was applied to the flood forecast for the Itajaí-Açu River basin, a region which comprises a drainage area of approximately 15,500 km2 in the state of Santa Catarina, Brazil, historically affected by floods. Ensemble weather forecasts were used as input to the MHD-INPE hydrological model, and the performance of the methodology was assessed through statistical indicators. Results suggest that flood warnings can be issued up to 48 h in advance, with a low rate of false warnings. Streamflow forecasting through the use of hydrological ensemble prediction systems is still scarce in Brazil. To the best of our knowledge, this is the first time this methodology aiming to an operational flood risk management system has been tested in Brazil.  相似文献   

15.
张福义 《水文》1999,(2):7-12
江河洪水预报流域水量分析法具有概念明确、分析计算严谨、预报精度较高且仅应用江河水文站实测流量资料等特点,对于水文站数多、流量资料系列长的大江大河尤为适用。初次应用于淮河干流上游,取得了一定的经验。这一方法的应用,将会对我国大江大河防 及水资源利用起到良好的作用。  相似文献   

16.
Flood occurrence has always been one of the most important natural phenomena, which is often associated with disaster. Consequently, flood forecasting (FF) and flood warning (FW) systems, as the most efficient non-structural measures in reducing flood loss and damage, are of prime importance. These systems are low cost and the time required for their implementation is relatively short. It is emphasized that for designing the components of these systems for various rivers, climatic conditions and geographical settings different methods are required. One of the major difficulties during implementing these systems in different projects is the fact that sometimes the main functions of these systems are ignored. Based on a systematic and practical approach and considering the components of these systems, it would be possible to extract the most essential key functions of the system and save time, effort and money by this way. For instance, in a small watershed with low concentration and small lead time, the main emphasis should be on predicting and monitoring weather conditions. In this article, different components of flood forecasting and flood warning systems have been introduced. Then analysis of the FF and FW system functions has been undertaken based on the value engineering (VE) technique. Utilizing a functional view based on function analysis system technique (FAST), the total trend of FF and FW functions has been identified. The systematic trend and holistic view of this technique have been used in optimizing FF and FW systems of the Golestan province and Golabdare watersheds in Iran as the case studies.  相似文献   

17.
洪水影响预报和风险预警理念与业务实践   总被引:2,自引:0,他引:2       下载免费PDF全文
刘志雨 《水文》2020,40(1):1-6
我国是世界上洪涝灾害频繁而严重的国家之一,洪水预报预警是防汛减灾工作中重要的非工程措施和洪水防御工作的耳目和参谋。从水文行业的视角,回顾了近年来我国洪水预报预警技术与业务进展,分析了当前洪水预报预警工作面临的新形势和新要求,对比国内外同类行业发展查找了存在的差距,阐述了洪水影响预报和风险预警的定义和理念,从顶层对基于影响预报和风险预警的新一代洪水预报预警系统("国家洪水预报预警系统")总体框架进行了研究和设计,一些关键技术成果在大范围洪水早期预警业务实践中得到了探索应用,取得了较好的效果。  相似文献   

18.
A system for effectively forecasting flash floods of the Arno River (Tuscany, Italy) should provide a flood warning with 10–12 h of lead time, primarily in order to evacuate the city of Florence. This goal may be achieved by acquiring and processing meteorological and hydrological data in real-time and, accordingly, by releasing alarms at different levels of reliability and concern. Through the application of both procedural language and expert system techniques, a prototype was developed which can readily handle a variety of relevant information and make predictions on flood hazard in Florence. The system was fairly successfully tested by processing simple meteorological data which enable a 24 hour forewarning to be released.  相似文献   

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