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基于Flood Area模型的邢台市小马河流域暴雨洪涝灾害风险分布特征 被引量:4
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作者 赵志楠 王丽荣 +1 位作者 王丛梅 韩晓庆 《干旱气象》 2021年第3期486-493,共8页
利用邢台市小马河流域26个区域站2014—2019年及周边7个国家站1980—2019年的逐日降水资料,基于泰森多边形法和MuDFiT软件计算不同重现期面雨量。运行Flood Area模型对该流域不同重现期下的淹没范围进行模拟,基于此叠加承灾体数据,得到... 利用邢台市小马河流域26个区域站2014—2019年及周边7个国家站1980—2019年的逐日降水资料,基于泰森多边形法和MuDFiT软件计算不同重现期面雨量。运行Flood Area模型对该流域不同重现期下的淹没范围进行模拟,基于此叠加承灾体数据,得到各承灾体受损率。为验证模拟结果的准确性,选取2016年7月19—20日强降雨过程对百年一遇暴雨洪涝灾害风险分布特征进行验证,结果与模拟淹没范围基本一致。研究表明随着重现期不断增大,洪水逐渐向中下游地区推进,淹没范围不断扩大加深。当淹没深度在0.1~0.3 m及1.0 m以上时,林地受损率最高,淹没深度小于0.1 m时,林地受损率最低。人口、GDP、城镇用地、耕地、草地等其他承灾体淹没深度在0.1 m以下时受损率最高,在0.1~0.3 m时受损率次之,在1.0 m以上时受损率居中,在0.3~0.5 m时受损率较低,淹没深度位于0.5~1.0 m时受损率最低。 展开更多
关键词 暴雨洪涝 小马河流域 flood area模型 淹没模拟
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A new multi-source remote sensing image sample dataset with high resolution for flood area extraction:GF-FloodNet
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作者 Yuwei Zhang Peng Liu +3 位作者 Lajiao Chen Mengzhen Xu Xingyan Guo Lingjun Zhao 《International Journal of Digital Earth》 SCIE EI 2023年第1期2522-2554,共33页
Deep learning algorithms show good prospects for remote sensingflood monitoring.They mostly rely on huge amounts of labeled data.However,there is a lack of available labeled data in actual needs.In this paper,we propo... Deep learning algorithms show good prospects for remote sensingflood monitoring.They mostly rely on huge amounts of labeled data.However,there is a lack of available labeled data in actual needs.In this paper,we propose a high-resolution multi-source remote sensing dataset forflood area extraction:GF-FloodNet.GF-FloodNet contains 13388 samples from Gaofen-3(GF-3)and Gaofen-2(GF-2)images.We use a multi-level sample selection and interactive annotation strategy based on active learning to construct it.Compare with otherflood-related datasets,GF-FloodNet not only has a spatial resolution of up to 1.5 m and provides pixel-level labels,but also consists of multi-source remote sensing data.We thoroughly validate and evaluate the dataset using several deep learning models,including quantitative analysis,qualitative analysis,and validation on large-scale remote sensing data in real scenes.Experimental results reveal that GF-FloodNet has significant advantages by multi-source data.It can support different deep learning models for training to extractflood areas.There should be a potential optimal boundary for model training in any deep learning dataset.The boundary seems close to 4824 samples in GF-FloodNet.We provide GF-FloodNet at https://www.kaggle.com/datasets/pengliuair/gf-floodnet and https://pan.baidu.com/s/1vdUCGNAfFwG5UjZ9RLLFMQ?pwd=8v6o. 展开更多
关键词 flood area extraction dataset construction multi-source remote sensing data deep learning
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基于FloodArea模型的山西山谷地区暴雨洪涝灾害风险特征分析
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作者 岳江 范志宣 +3 位作者 师莉红 裴真 贺洁颖 王红霞 《河南科学》 2023年第9期1309-1316,共8页
基于1992—2021年降水观测数据和气象灾情数据,采用FloodArea模型对沁水经济技术开发区所在山谷地区不同重现期下的暴雨洪涝淹没范围进行模拟评估.结果表明:研究区所在地区不同重现期小时雨型呈多峰分布,山谷效应导致雨水汇流,淹没水深... 基于1992—2021年降水观测数据和气象灾情数据,采用FloodArea模型对沁水经济技术开发区所在山谷地区不同重现期下的暴雨洪涝淹没范围进行模拟评估.结果表明:研究区所在地区不同重现期小时雨型呈多峰分布,山谷效应导致雨水汇流,淹没水深和面积增加,具有一定的暴雨洪涝风险;区内大部分淹没面积在10cm^(2)以下;内涝等级为一般性内涝风险(10~25cm)的淹没面积为0.48km^(2),主要呈散点状分布于研究区各片区;中度内涝风险(25~50cm)的淹没面积为0.41km^(2),主要呈散点状分布在端氏综合服务中心周围;严重内涝风险(50~80cm)的淹没面积较少,为0.32km^(2);特别严重内涝风险(>80cm)的淹没面积为4.74km^(2),主要集中分布于北部产业片区和南部产业片区的偏西地区.各重现期淹没风险较大的区域主要分布在各个片区内低洼地区,与实际灾情相符. 展开更多
关键词 floodarea 山谷地区 暴雨洪涝 风险特征
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Prediction of the flooding area of the northeastern Caspian Sea from satellite images
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作者 Anzhelika T.Kamza Irina A.Kuznetsova Eugene L.Levin 《Geodesy and Geodynamics》 CSCD 2023年第2期191-200,共10页
Studying the dynamic changes in the coastline of the northeastern Caspian Sea is significant since the level of the Caspian is unstable,and the coastline change can cause enormous damage to the ecology,economy,and pop... Studying the dynamic changes in the coastline of the northeastern Caspian Sea is significant since the level of the Caspian is unstable,and the coastline change can cause enormous damage to the ecology,economy,and population of the coastal part of Kazakhstan.In this work,we use remote sensing and Geographic Information System(GIS)technologies to study the changes in the coastline of the northeastern Caspian Sea and predict the extent of flooding with increasing water levels.The proposed methodology for creating dynamic maps can be used to monitor the coastline and forecast the extent of flooding in the area.As a result of this work,the main factors affecting changes in the coastline were identified.After analyzing the water level data from 1988 to 2019,it was revealed that the rise in water level was observed from 1980 to 1995.The maximum sea level rise was recorded at-26.04 m.After that,the sea level began to fall,and between 1996 and 2009,there were no significant changes;the water level fluctuated with an average of-27.18 m.Then,a map of the water level dynamics in the Caspian Sea from 1988 to 2019 was compiled.According to the dynamics map,water level rise and significant coastal retreat were revealed,especially in the northern part of the Caspian Sea and the northern and southern parts of Sora Kaydak.The method for predicting the estimated flooding area was described.As a result,based on a single map,the flooding area of the northeast coast was predicted.A comparative analysis of Landsat and SRTM data is presented. 展开更多
关键词 Caspian Sea SEABED Earth remote sensing GIS Landsat Prediction of the flooding area Ecology of coastline SRTM
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Occurrence of Extreme Rainfall and Flood Risks in Yopougon, Abidjan, Southeast Côte d’Ivoire from 1971 to 2022
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作者 Kolotioloma Alama Coulibaly Pauline Agoh Dibi-Anoh +5 位作者 Bi Néné Jules Tah Hervé Anoh Kouadio Christophe N’da Serge Camille Ahilé Kouakou Bernard Djè Daouda Konaté 《American Journal of Climate Change》 2024年第3期427-451,共25页
Yopougon, located in the western part of the Autonomous District of Abidjan, is the most heavily populated municipality in Côte d’Ivoire. However, this area is prone to floods and landslides during the rainy sea... Yopougon, located in the western part of the Autonomous District of Abidjan, is the most heavily populated municipality in Côte d’Ivoire. However, this area is prone to floods and landslides during the rainy season. The study aims to assess recent flood risks in the municipality of Yopougon of the Autonomous District of Abidjan. To achieve this objective, the study analyzed two types of data: daily rainfall from 1971 to 2022 and parameters derived from a Numerical Field and Altitude Model (NFAM). The study examined six rainfall parameters using statistical analysis and combined land use maps obtained from the NFAM of Yopougon. The results indicated that, in 67% of cases, extreme rainfall occurred mainly between week 3 of May and week 1 of July. The peak of extreme rainfall was observed in week 2 of June with 15% of cases. These are critical periods of flood risks in the Autonomous District of Abidjan, especially in Yopougon. In addition, there was variability of rainfall parameters in the Autonomous District of Abidjan. This was characterized by a drop of annual and seasonal rainfall, and an increase of numbers of rainy days. Flood risks in Yopougon are, therefore, due to the regular occurrence of rainy events. Recent floods in Yopougon were caused by normal rains ranging from 55 millimeters (mm) to 153 mm with a return period of less than five years. Abnormal heavy rains of a case study on June 20-21, 2022 in Yopougon were detected by outputs global climate models. Areas of very high risk of flood covered 18% of Yopougon, while 31% were at high risk. Climate information from this study can assist authorities to take in advance adaptation and management measures. 展开更多
关键词 Yopougon-Abidjan Extreme Rainfall Rainy Day Return Period flood Risk areas
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基于FloodArea模型的云南山洪淹没模拟研究 被引量:32
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作者 张明达 李蒙 +1 位作者 戴丛蕊 黄玮 《灾害学》 CSCD 2016年第1期78-82,共5页
致灾临界雨量法被普遍用于山洪预警,结合Flood Area模型动态模拟山洪灾害淹没是获取临界雨量的新方法。对2012年云南宣威"7.12"山洪灾害进行实地调查,获取山洪沟基本参数及隐患点淹没高度,利用周边气象站逐时降雨量进行淹没... 致灾临界雨量法被普遍用于山洪预警,结合Flood Area模型动态模拟山洪灾害淹没是获取临界雨量的新方法。对2012年云南宣威"7.12"山洪灾害进行实地调查,获取山洪沟基本参数及隐患点淹没高度,利用周边气象站逐时降雨量进行淹没模拟。结果表明:当临界雨量分别为42 mm、85 mm、136 mm和180 mm时,达到各山洪灾害等级淹没高度,即得出各等级致灾临界雨量。对比实测值和模拟值后得出,此模型具有一定的参考价值,但需更精确的地理信息数据支撑。 展开更多
关键词 floodarea 云南 山洪 临界雨量 淹没模拟
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Visualization and Damage Assessment for Flooded Area
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作者 SUGuozhong YANLi +1 位作者 LIUNan LIURenyi 《Geo-Spatial Information Science》 2004年第3期180-186,共7页
A practical method for visualizing flood area and evaluating damage is presented, which consists of two technical approaches: self\|programming and adapting commercial GIS platforms. The low\|cost and easy\|to\|use GI... A practical method for visualizing flood area and evaluating damage is presented, which consists of two technical approaches: self\|programming and adapting commercial GIS platforms. The low\|cost and easy\|to\|use GIS\|Based model developed by self\|programming can meet current requirements of most local authorities, especially in developing countries. In this model, two cases, non\|source flood and source flood, are distinguished and the Seed\|spread algorithm suitable for source\|flood is discussed; The flood damage is assessed by overlaying the flood area range with thematic maps and other related social and economic data. and all thematic maps are converted to raster format before overlay analysis. Two measures are taken to improve the operation efficiency of speed seed\|spread algorithm. The accuracy of the model mainly depends on the resolution and precision of the DEM data, and the accuracy of registering all raster layers and the quality of attribute data. 展开更多
关键词 flood area visualization damage assessment seed spread algorithm
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基于Flood Area模型的模袋混凝土衬砌渠道糙率系数改进技术研究
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作者 张海玲 霍轶珍 +1 位作者 郭彦芬 王文达 《河套学院论坛》 2019年第1期90-93,共4页
以河套灌区建设一分干模袋混凝土衬砌渠道为研究对象,利用Flood Area模型,将糙率系数的设置做区分化处理;对渠道区域与坡面区域进行划分和赋值,在经验参数的基础上,结合建设一分干模袋混凝土衬砌渠道实际情况,设置栅格糙率系数,增加糙... 以河套灌区建设一分干模袋混凝土衬砌渠道为研究对象,利用Flood Area模型,将糙率系数的设置做区分化处理;对渠道区域与坡面区域进行划分和赋值,在经验参数的基础上,结合建设一分干模袋混凝土衬砌渠道实际情况,设置栅格糙率系数,增加糙率系数的精度。结果表明改进后的方法提高了流速,简化了率定流程,解决了模拟流速普遍偏低的问题。利用高程与糙率系数的函数关系,较全面、真实地仿真模拟模袋混凝土衬砌渠道的流场。 展开更多
关键词 flood area模型 模袋混凝土 糙率 TOPMODEL 区分化处理
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A GIS-based method for flooded area calculation and damage evaluation 被引量:1
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作者 LIU Ren-yi, LIU Nan (The Zhejiang Provincial GIS Lab, Zhejiang University, Hangzhou 310028, China) 《Journal of Geographical Sciences》 SCIE CSCD 2001年第2期187-192,共6页
Using geographic information system to study flooded area and damage evaluation has been a hotspot in environmental disaster research for years. In this paper, a model for flooded area calculation and damage evaluatio... Using geographic information system to study flooded area and damage evaluation has been a hotspot in environmental disaster research for years. In this paper, a model for flooded area calculation and damage evaluation is presented. Flooding is divided into two types: ‘soruce flood’ and ‘non-source flood’. The source-flood area calculation is based on seed spread algorithm. The flood damage evaluation is calculated by overlaying the flooded ara range with thematic maps and relating the results to other social and economic data. To raise the operational efficiency of the model, a skipping approach is used to speed seed spread algorithm and all thematic maps are converted to raster format before overlay analysis. The accuracy of flooded area calculation and damage evaluation is mainly dependent upon the resolution and precision of the digital elevation model (DEM) data, upon the accuracy of registering all raster layers, and upon the quality of economic information. This model has been successfully used in the Zhejiang Province Comprehensive Water Management Information System developed by the authors. The applications show that this model is especially useful for most counties of China and other developing countries. 展开更多
关键词 MODEL flooded area calculation damage evaluation seed spread algorithm
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Real-time flood forecasting of Huai River with flood diversion and retarding areas 被引量:6
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作者 Li Zhijia Bao Hongjun +2 位作者 Xue Cangsheng Hu Yuzhong Fang Hong 《Water Science and Engineering》 EI CAS 2008年第2期10-24,共15页
A combination of the rainfall-runoff module of the Xin’anjiang model, the Muskingum routing method, the water stage simulating hydrologic method, the diffusion wave nonlinear water stage method, and the real-time err... A combination of the rainfall-runoff module of the Xin’anjiang model, the Muskingum routing method, the water stage simulating hydrologic method, the diffusion wave nonlinear water stage method, and the real-time error correction method is applied to the real-time flood forecasting and regulation of the Huai River with flood diversion and retarding areas. The Xin’anjiang model is used to forecast the flood discharge hydrograph of the upstream and tributary. The flood routing of the main channel and flood diversion areas is based on the Muskingum method. The water stage of the downstream boundary condition is calculated with the water stage simulating hydrologic method and the water stages of each cross section are calculated from downstream to upstream with the diffusion wave nonlinear water stage method. The input flood discharge hydrograph from the main channel to the flood diversion area is estimated with the fixed split ratio of the main channel discharge. The flood flow inside the flood retarding area is calculated as a reservoir with the water balance method. The faded-memory forgetting factor least square of error series is used as the real-time error correction method for forecasting discharge and water stage. As an example, the combined models were applied to flood forecasting and regulation of the upper reaches of the Huai River above Lutaizi during the 2007 flood season. The forecast achieves a high accuracy and the results show that the combined models provide a scientific way of flood forecasting and regulation for a complex watershed with flood diversion and retarding areas. 展开更多
关键词 flood forecasting and regulation Xin’anjiang model Muskingum method water stage simulating hydrologic method diffusion wave nonlinear water stage method flood diversion and retarding area Huai River
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基于FloodArea的三峡库区小流域山洪面雨量分析 被引量:11
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作者 周杰 刘晓冉 康俊 《气象科技》 2019年第4期697-704,共8页
以三峡库区普里河下游流域作为山洪灾害淹没模拟的研究区域,通过泰森多边形方法和算术平均方法分别计算流域面雨量,采用FloodArea模型对两种方法下的同一降水过程进行模拟,结合实地考察流域内淹没时间和淹没水深资料对比分析两者的模拟... 以三峡库区普里河下游流域作为山洪灾害淹没模拟的研究区域,通过泰森多边形方法和算术平均方法分别计算流域面雨量,采用FloodArea模型对两种方法下的同一降水过程进行模拟,结合实地考察流域内淹没时间和淹没水深资料对比分析两者的模拟结果。结论表明:泰森多边形方法下的山洪灾害淹没模拟能较好地反映普里河下游流域内的因降水导致的山洪推进路线、淹没范围及淹没水深,且该方法下推算的山洪灾害致灾临界面雨量更具有实际应用价值。该方法可用于推算流域内的山洪灾害致灾临界面雨量。 展开更多
关键词 临界面雨量 floodarea模型 泰森多边形 山洪灾害
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FLOOD SIMULATION IN DONGTING LAKE DRAINAGE AREA AND ITS FLOOD CONTROL 被引量:1
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作者 Huang Huaiyong Du Guoquan +1 位作者 Fan Weimin and Chen Guanghao(Changsha Institute of Geotectonics, Academia Sinica, Changsha 410013) 《Geotectonica et Metallogenia》 1998年第Z1期90-96,共7页
On the basis of water-balance equation in Dongting Lake and Xiang Zi Yuan-Li River drainage areas, a possib1e flood height relating to the rainfall precipitation in these areas has been inferred. According to the floo... On the basis of water-balance equation in Dongting Lake and Xiang Zi Yuan-Li River drainage areas, a possib1e flood height relating to the rainfall precipitation in these areas has been inferred. According to the flood simulation, some synthetic maintenance strategies to prevent future catastrophic f1oods in Dongting Lake drainage area have been also presented. 展开更多
关键词 Dongting LAKE drainage area flood SIMULATION SYNTHETIC maintenance
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Impacts of water surface area of watershed on design flood 被引量:1
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作者 Qing-hua ZHANG Yan-fang DIAO Jie DONG 《Water Science and Engineering》 EI CAS CSCD 2014年第1期41-48,共8页
In order to analyze the impact of the water surface area of a watershed on the design flood, the watershed was classified into a land watershed and a water surface watershed for flood flow calculation at the same time... In order to analyze the impact of the water surface area of a watershed on the design flood, the watershed was classified into a land watershed and a water surface watershed for flood flow calculation at the same time interval. Then, the design flood of the whole watershed was obtained by adding the two flood flows together. Using this method, we calculated design floods with different water surface areas of three reservoirs and analyzed the impact of water surface area on the flood volume and peak flow. The results indicate that larger water surface areas lead to greater impacts on the flood volume and peak flow. For the same watershed area, the impact of water surface area on the flood volume and peak flow is positively proportional to the flood frequency, i.e., the higher the frequency, the greater the impact becomes. 展开更多
关键词 WATERSHED water surface area design flood flood frequency flood volume peak Jlow
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Assessment of Flood Hazard of Jeddah Area 2009, Saudi Arabia
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作者 Mashael Al Saud 《Journal of Water Resource and Protection》 2010年第9期839-847,共9页
Due climatic variability and anthropogenic changes, floods have been raised lately in several regions worldwide. The resulting impact from floods is often harmful. This can be applied to Saudi Arabia, the country whic... Due climatic variability and anthropogenic changes, floods have been raised lately in several regions worldwide. The resulting impact from floods is often harmful. This can be applied to Saudi Arabia, the country which is known by dry climatic conditions, and it became lately a typical region for such natural hazard. Hence, floods are observed as a yearly disaster with high magnitude of influence. Jeddah, a coastal Saudi city on the Red Sea to the west, has witnessed severe event in November 2009, when flooded water and sediments (torrents) invaded the urban areas and resulted decease of many people and destroyed the infrastructure and civilized zones. The lack of mitigation implements exacerbated the problem. This study implies an assessment of flood hazard risk in Jeddah region. It aims to identify the zones subjected to flood and then inducing the influencing factors at different levels of effect. For this purpose space techniques were utilized, with a focus on IKONOS satellite images, which are characterized by high resolution in identifying terrain features. In addition Geographic Information System (GIS) was also used to support space techniques. Thus, damaged areas and the mechanism of flooding process were recognized. This helps avoiding further urban expansion in areas under flood risk and will aid decision maker to put new strategies for hazard management. 展开更多
关键词 DISASTER flooded areas SPACE TOOLS SAUDI ARABIA
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The Bivalve Mollusc <i>Abra ovata</i>: Role in Succession of Soft Bottom Communities on Newly Flooded Area of the Caspian Sea
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作者 Yuri Ya. Latypov 《American Journal of Climate Change》 2015年第3期239-247,共9页
The succession of an Abra ovata community that had formed at the flooded area in Sulaksky Bay (the Caspian Sea) since the mid-1980s was investigated. The resident species Abra ovata and Cerastoderma glaucum, the pione... The succession of an Abra ovata community that had formed at the flooded area in Sulaksky Bay (the Caspian Sea) since the mid-1980s was investigated. The resident species Abra ovata and Cerastoderma glaucum, the pioneer settlers, were found remaining dominant in the community structure and driving the course of its succession, despite some decrease in settlement density and in the rate of occurrence. It was the tolerance of the Sulaksky pioneer settlers for later colonists (macrophytes, mytilids, crustaceans and other organisms) that determined the development of the first succession stage. The next succession stage in Abra ovata communities of Sulaksky Bay does not quite agree with the pattern typical of solid substrates. On the one hand, the community development supports the tolerance model: the pioneer Abra, in spite of being dominant through all the succession stages, does not oppose the settling of other multiple colonists;on the other hand, it agrees with a facilitation model where the abundance of the original settlers, the grazing species, provokes appearance of sturgeon. 展开更多
关键词 Caspian Sea flooded area SUCCESSION Bottom Community BIVALVE MOLLUSC Abra ovata
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Effect of Flood Peak Discharge Control by a Small Reservoir in an Urbanized Area—Case Study in the Kurabe River Basin, Japan
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作者 Kouzo Ito Manabu Segawa +1 位作者 Hiroshi Takimoto Toshisuke Maruyama 《Open Journal of Modern Hydrology》 2017年第4期314-330,共17页
Recently severe damage of flooding by urbanization was frequently occurred. To prevent this damage, small reservoir was constructed in the urbanized residential area. This paper describes an effect of flood peak disch... Recently severe damage of flooding by urbanization was frequently occurred. To prevent this damage, small reservoir was constructed in the urbanized residential area. This paper describes an effect of flood peak discharge control by a small reservoir (control reservoir) caused by rapidly developed urbanization. Although work for this purpose was conducted, research on the effects of the control reservoir was not conducted until now. This research, conducted by simulation, was a case study in the Kurabe River Basin in the Tedori River Alluvial Fan Area, Japan, based on the precise investigation of the reservoir in the actual field. The study was conducted to determine not only the actual control reservoir capacity for the newly developed residential area but also the ideal capacity for all present residential areas and the largest capacity allowable for a maximum rainfall event that recently occurred. The control reservoir effects between individual blocks and the entire basin area were compared by dividing the test basin into 15 blocks (sub-basins). The results showed that the effects on the capacity per unit area of the residential area in blocks have close relationship with the decreasing ratio of peak discharge in blocks. Consequently, the effects of control reservoir capacity and the limitation were clarified. In the future, control reservoirs should be constructed for all of the already developed residential areas, for example, by utilizing underground car parking lot. The results of this research can contribute to the design of the control reservoir for protection against flooding damage in urbanized areas. 展开更多
关键词 flood Control RESERVOIR DISCHARGE from Urbanized area Unit flood DISCHARGE PEAK DISCHARGE DECREASING Ratio Simulation of Drainage DISCHARGE
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河北省涿州市“23.7”洪水模拟反演分析及思考 被引量:2
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作者 丁志雄 《中国水利水电科学研究院学报(中英文)》 北大核心 2024年第2期121-128,共8页
河北涿州“23.7”洪水影响大、损失重。为分析其原因,以及为灾后的恢复重建与今后的防洪治理等提供参考思路,建立了涿州市相关区域二维洪水数值仿真模型,对涿州市“23.7”洪水进行模拟反演及淹没影响对比分析。结果表明:除极端暴雨引发... 河北涿州“23.7”洪水影响大、损失重。为分析其原因,以及为灾后的恢复重建与今后的防洪治理等提供参考思路,建立了涿州市相关区域二维洪水数值仿真模型,对涿州市“23.7”洪水进行模拟反演及淹没影响对比分析。结果表明:除极端暴雨引发的洪水量级大外,涿州市特殊的地理位置,防洪工程薄弱,蓄滞洪区内建设用地大量增加,是本次洪水影响大、损失重的主要原因。涿州市今后的防洪治理及其蓄滞洪区内的土地开发建设,除参考相关区域的开发经验外,更应加强防洪工程建设、完善洪水防御体系、加强蓄滞洪区的建设与管理,强化洪水风险分析及实时预报预警,提高公众的洪水风险防范意识等。 展开更多
关键词 涿州市 “23.7”洪水 模拟反演分析 蓄滞洪区 洪水风险预警
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隧道施工引发粉土地面沉降模拟与分析
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作者 顾展飞 魏海龙 刘之葵 《地下空间与工程学报》 CSCD 北大核心 2024年第S01期391-402,共12页
为研究黄泛区粉土地层内开挖双线地铁隧道对地上及其周边地面沉降的影响,以某双线地铁隧道开挖工程为例,考虑地下水、隧道间距对地面沉降的影响,采用流固耦合数值方法和理论分析方法对隧道施工引起的地面沉降规律进行分析。将数值模拟... 为研究黄泛区粉土地层内开挖双线地铁隧道对地上及其周边地面沉降的影响,以某双线地铁隧道开挖工程为例,考虑地下水、隧道间距对地面沉降的影响,采用流固耦合数值方法和理论分析方法对隧道施工引起的地面沉降规律进行分析。将数值模拟数据与Peck公式进行反演计算,并考虑隧道间隔和埋深的影响提出修正Peck公式,再结合叠加原理建立适用于双线隧道开挖引起地面沉降的修正叠加公式。结果表明:隧道开挖扰动地层将引起超静孔隙水压力现象;数值模拟与理论计算得到隧道间隔为4 m时,地面沉降曲线呈现“V”型,隧道间隔为8 m、12 m时,则沉降曲线呈现“U”形;粉土内开挖双线地铁隧道,地面容易受到扰动且沉降量大,随着隧道间距的增加,隧道上方土体沉降量逐渐减小;基于修正Peck公式计算结果与数值模拟结果基本一致,相对误差在3%左右,表明该公式具有很好的实用性。研究可为粉土地区隧道及地下工程建设提供理论依据和技术支撑。 展开更多
关键词 黄泛区粉土 数值模拟 双线隧道 PECK公式
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高密度电法在汛期堤防渗漏隐患探测中的应用 被引量:1
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作者 刘栋臣 汤克轩 +2 位作者 刘金鹏 李国瑞 王志豪 《河北水利电力学院学报》 2024年第1期29-33,共5页
汛期高水位、高渗透压力下,会造成堤防渗漏缺陷扩大或隐患加剧,快速、准确地开展堤防渗漏隐患应急排查,是指导科学防汛、保障安全度汛的重要举措。针对管涌、散浸、穿堤建筑物等渗漏缺陷及隐患,开展了高密度电法的场地试验,得到汛期堤... 汛期高水位、高渗透压力下,会造成堤防渗漏缺陷扩大或隐患加剧,快速、准确地开展堤防渗漏隐患应急排查,是指导科学防汛、保障安全度汛的重要举措。针对管涌、散浸、穿堤建筑物等渗漏缺陷及隐患,开展了高密度电法的场地试验,得到汛期堤岸的电性结构,通过比对试验,得到不同渗漏缺陷与无显著缺陷堤岸的电性差异,以此为基准,采用高密度电法对子牙河右堤天津静海段特别是子牙河汇入独流减河段进行隐患排查,划分了渗漏隐患区和潜在风险区,为保障海河流域“23·7”特大洪水期间堤防安全提供了重要技术支撑。 展开更多
关键词 渗漏探测 应急抢险 堤岸 子牙河 高密度电法
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海河“23·7”流域性特大洪水蓄滞洪区泥沙淤积分析
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作者 杨胜天 朱贻凡 +7 位作者 周柏池 娄和震 丁建新 宋文龙 丛佩娟 龚记熠 王怀星 李杰康 《南水北调与水利科技(中英文)》 CAS CSCD 北大核心 2024年第5期865-874,共10页
为探究海河“23·7”流域性特大洪水过程中蓄滞洪区泥沙淤积特征,评估受灾情况,基于实地淤积调查和高分遥感影像,计算淤积厚度空间分布,并结合DEM数据估算蓄滞洪量和蓄滞洪区利用率。结果表明:淤积厚度插值的均方根误差E_(RMS)为1.... 为探究海河“23·7”流域性特大洪水过程中蓄滞洪区泥沙淤积特征,评估受灾情况,基于实地淤积调查和高分遥感影像,计算淤积厚度空间分布,并结合DEM数据估算蓄滞洪量和蓄滞洪区利用率。结果表明:淤积厚度插值的均方根误差E_(RMS)为1.32,纳什系数E_(NS)为0.78,蓄滞洪量计算的E_(RMS)为0.75,E_(NS)为0.92,证明研究计算方法可行,计算结果可靠;8个蓄滞洪区共蓄洪24.63亿m^(3),蓄滞洪区利用率约为36.90%,平均淤积厚度为2.60 cm,总淤积量达7.67×10^(7) t;海河流域洪水含沙量约31.14 kg/m^(3),其中大清河系和永定河系的洪水含沙量达到过去20 a平均含沙量的20~40倍;此外,研究发现海河流域西部和北部山地的淤积情况更严重,较早启用的、位于上游的蓄滞洪区淤积量更大。 展开更多
关键词 “23·7”流域性特大洪水 海河流域 蓄滞洪区 泥沙淤积
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