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Risk analysis model for landslide mass of high slope in dam area

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Science china(Technological Sciences) 2008年第S2期51卷 25-31页

作者： GU ChongShi1,2.HE XianFeng3,4,WU ZhongRu1,2.& SU HuaiZhi1,2.1 College of Water Conservancy and Hydropower Engineering,Hohai University,Nanjing 2.0098,china 2.National Engineering research Center of Water Resources Efficient Utilization and Engineering Safety,Nanjing 2.0098,china 3 yellow River institute of hydraulic research,zhengzhou 450003,china 4 Embankment Security Defect Prevention and Control Engineering research Center of MWR,zhengzhou 450003,china 1. College of Water Conservancy and Hydropower Engineering Hohai University Nanjing 210098 China 2. National Engineering research Center of Water Resources Efficient Utilization and Engineering Safety Nanjing 210098 China 3. yellow River institute of {2. research Zhengzhou 450003 China 4. Embankment Security Defect Prevention and Control Engineering research Center of MWR Zhengzhou 450003 China

In order to identify the threat of reservoir bank landslide to dam safety and reduce the risk of dam failure,impact factors of the landslide are *** concept of landslide risk degree is put forward to measure the threat of landslide to dam *** monotony of the landslide risk assessment function which changes with different affecting factors is analyzed *** on gene automatic programming,a data mining model of the landslide risk assessment function is constructed combined with impact factors of reservoir bank landslide on dam *** the assessment function of landslide risk has been excavated and established according to practical project information,which provides a valuable reference for analyzing the impact of landslide on dam risk.

关键词： landslide dam failure risk landslide risk

On the variation of water resource structure in the Lower yellow River

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Science china(Technological Sciences) 2004年第z1期47卷 127-141页

作者： NI Jinren1, WANG Yudong1, QIAN Zhenghan1, LI Tianhong1 & ZHAO Yean2.1. Department of Environmental Engineering, Peking University The Key Laboratory of Water and Sedi- ment Sciences, Ministry of Education, Beijing 100871, china 2. institute of {2. research, yellow River Conservancy Commission, zhengzhou 450003, china 1. Department of Environmental Engineering Peking University 100871 Beijing China2. The Key Laboratory of Water and Sediment Sciences Ministry of Education 100871 Beijing China3. Institute of Hydraulic Research YellowRiver Conservancy Commission 450003 Zhengzhou China

In view of river functions and the Minimum Water Demand for River Ecosystem (MWDRE), the water resources in the Lower yellow River is further divided into three portions, i.e. water available for ecosystem (WE), water exploitable for socioeconomic purposes (WS) and excess flood water (WF). Corresponding conceptions and practical significances are expounded in details. The annual amount of the three portions of water resources from 1950 to 2.01 is worked out on the basis of the daily hydrologic data, and the division of different portions is discussed. The results indicate that although the essential water demand for river functions is considered preferentially, the amount of the WE has decreased dramatically while its proportion increased gradually since the 1950s, and the shortage to the MWDRE increased markedly; both the amount and the proportion of the WS decreased notably. Since the 1990s, the actual water consumption for socioeconomic purposes in the lower reaches of the river basin has already exceeded the maximum amount of the WS and has to take over the WE which is already insufficient, hence not only the normal river functions are further disturbed and the river course shrinks greatly, but also the proportion and potential danger of the WF show no decreasing tendency in spite of the sharp decrease of upstream runoff.

关键词： the yellow River, water resource structure, water available for ecosystem, water exploitable for socioeconomic purposes, excess flood water.

Runoff reduction due to environmental changes in the Sanchuanhe river basin

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International Journal of Sediment research 2008年第2期23卷 174-180页

作者： Guoqing WANG1,Jianyun ZHANG2.Ruimin HE3,Naiqian JIANG4,and Xin'ai JING5 1 Senior Engineer,State Key Laboratory of Hydrology-Water Resources and hydraulic Engineering,Nanjing hydraulic {2. institute,Nanjing 2.0098,china {2. Center for Climate Change,MWR,Nanjing 2.002.,china yellow River institute of hydraulic {2.,zhengzhou 450003,china 2.Prof.,3 Engineer,State Key Laboratory of Hydrology-Water Resources and hydraulic Engineering,Nanjing hydraulic {2. institute,Nanjing 2.0098,china 4 Prof.,5 Engineer,yellow River institute of hydraulic {2.,zhengzhou 450003,china [a]Senior Engineer State Key Laboratory of Hydrology-Water Resources and hydraulic Engineering Nanjing hydraulic research {2. Nanjing 2.0098 china research Center for Climate Change MWR Nanjing 2.002. china yellow River institute of {2. research zhengzhou 450003 china [b]Prof. State Key Laboratory of Hydrology-Water Resources and hydraulic Engineering Nanjing hydraulic research {2. Nanjing 2.0098 china [c]Engineer State Key Laboratory of Hydrology-Water Resources and hydraulic Engineering Nanjing hydraulic research {2. Nanjing 2.0098 china [d]Prof. yellow River institute of {2. research zhengzhou 450003 china [e]Engineer yellow River institute of {2. research zhengzhou 450003 china

Recently,runoff in many river basins in china has been ***,the role that climate change and human activities are playing in this decrease is currently of *** this study,we evaluated an assessment method that was designed to quantitatively separate the effects of climate change and human activities on runoff in river ***,we calibrated the SIMHYD rainfall runoff model using naturally recorded hydro-meteorologic data pertaining to the Sanchuanhe River basin and then determined the effects of climate change and human activities on runoff by comparing the estimated natural runoff that occurred during the period in which humans disturbed the basin to the runoff that occurred during the period prior to disturbance by *** results of this study revealed that the SIMHYD rainfall runoff model performs well for estimating monthly *** addition,we found that absolute runoff reductions have increased in response to human activities and climate change,with average reductions of 70.1% and 2..9% in total runoff being caused by human activities and climate change,*** together,the results of this study indicate that human activities are the primary cause of runoff reduction in the Sanchuanhe River basin.

关键词： Sanchuanhe River Hydrological simulation Climate change Human activities Impact

A distributed hydrological model with its application to the Jinghe watershed in the yellow River Basin

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Science china(Technological Sciences) 2004年第z1期47卷 60-71页

作者： WANG Zhonggen1, ZHENG Hongxing1, LIU Changming1, , WU Xianfeng2.2.& ZHAO Weimin3 1. Key Laboratory of Water Cycle & Related Land Surface Processes, institute of Geographic Science and Natural Resources research, Chinese Academy of Sciences, Beijing 100101, {2. 2. institute of Environmental Science, Beijing Normal University, Beijing 100875, {2. 3. Water Resources Conservation Committee of yellow River, zhengzhou 450003, {2. Chinese Acad Sci Key Lab Water Cycle & Related Land Surface Proc Inst Geog Sci & Nat Resources Res Beijing 100101 Peoples R China Beijing Normal Univ Inst Environm Sci Beijing 100875 Peoples R China Water Resources Conservat Comm yellow River Zhengzhou 450003 Peoples R China

For the purpose of water resources management in the yellow River Basin with highly spatial difference, a daily distributed hydrological model was proposed, of which the determination of spatially-distributed parameters and model inputs processing were performed by means of GIS/RS. In the model, the computation of runoff yield was based on the topography index method and flow routing was modeled by Maskingum method. The operation of the model is followed by means of “command structure” technique based upon the topography of river network. A case study using the model was conducted for the Jinghe watershed, which locates at the middle yellow River Basin. The simulation of the hydrological processes in 1996 has shown that water quantity balance errors were less than 5% and the Nash-Sutcliffe coefficient arrived at 0.7, indicating that the model structure is justifiable, and the precision of the model can satisfy the purpose of water resources management.

关键词： distributed hydrological model, structure and equation, GIS and RS, Jinghe Basin, yellow River Basin.

Large-eddy simulation of formation of three-dimensional aeolian sand ripples in a turbulent field

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Science china(Physics,Mechanics & Astronomy) 2008年第8期51卷 945-960页

作者： WU ChuiJie1,WANG Ming2.& WANG Liang3 1 State Key Laboratory of Structural Analysis for Industrial Equipment,Dalian University of Technology,Dalian 11602.,china 2.yellow River {2. of hydraulic research,zhengzhou 450003,china 3 research Center for Fluid Dynamics,Science School,PLA University of Science and Technology,Nanjing 2.1101,china State Key Laboratory of Structural Analysis for Industrial Equipment Dalian University of Technology Dalian 116024 China yellow River institute of {2. research Zhengzhou 450003 China research Center for Fluid Dynamics Science School PLA University of Science and Technology Nanjing 211101 China

With the method of large-eddy simulation,the equation of spherule motion and the method of immersed boundary condition,numerical simulations of three-dimen-sional turbulent aeolian motion and the formation of sand ripples under three-di-mensional turbulent wind and the mutual actions of saltation and creeping motion were carried out. The resulting sand ripples have the form that is flat on the upwind side and steep on the leeward,which is identical to the sand ripples in nature. We also realized the self-restoration process of three-dimensional sand ripples,which shows the correctness of the method of numerical simulation and the models of saltation and creeping. Finally,We analyzed the influence of sand ripples on the three-dimensional turbulent wind field,and found that due to the appearance and development of sand ripples,in the normal direction of ground there exists stronger energy exchange,and moreover,there is close correspondence between the forms of sand ripples and the vorticity close to the ground surface.

关键词： large-eddy simulation equation of spherule motion sand ripples saltation creep

Dam risk assistant analysis system design

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Science china(Technological Sciences) 2008年第S2期51卷 101-109页

作者： HE XianFeng1,2.3,GU ChongShi3,4,WU ZhongRu3,4 & SU HuaiZhi3,4 1 yellow River institute of {2. research,zhengzhou 450003,china 2.Embankment Security Defect Prevention and Control Engineering research Center of MWR,zhengzhou 45000,china 3 College of Water Resources and Hydropower Engineering,Hohai University,Nanjing 2.0098,china 4 National Engineering research Center of Water Resources Efficient Utilization and Engineering Safety,Hohai University,Nanjing 2.0098,china yellow River institute of {2. research Zhengzhou 450003 China Embankment Security Defect Prevention and Control Engineering research Center of MWR Zhengzhou 45000 China College of Water Resources and Hydropower Engineering Hohai University Nanjing 210098 China National Engineering research Center of Water Resources Efficient Utilization and Engineering Safety Hohai University Nanjing 210098 China

In order to reduce the labor intensity and task difficulty of dam risk analysis and to meet the actual requirement of dam risk analysis,it is necessary to establish a dam risk assistant analysis *** program structure and the implementation ways of the dam risk assistant analysis system are analyzed,and a procedural framework with "three-tier and multi-database" structure and "level structure" is *** concept of dam risk assessment system modular development is proposed and the coupled mode of function module and data is ***,the dam risk assistant analysis system is developed using Delphi visual programming language.

关键词： dam risk risk analysis assistant analysis system

SIZE DISTRIBUTIONS OF COARSE SAND BED LOAD IN TURBULENT FLOW FIELD

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Journal of Hydrodynamics 1995年第3期7卷 1-6页

作者： Zhang Hong-wu Wang Shan(institute of hydraulic {2. yellow River Conservancy Commissivn,zhengzhou 450003,P.R.china)

Putting forth effort on analyzing the action of turbulent flow on the sand particles on rvier bed surface,in this paper, the interdependent relation between the size distribution of coarse sand bed load and flow stren... 详细信息

关键词： coarse sand bed size distributions turbulent flow

Sediment retention by check dams in the Hekouzhen-Longmen Section of the yellow River

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International Journal of Sediment research 2008年第2期23卷 159-166页

作者： Da-Chuan RAN1,2.Quan-Hua LUO3,Zu-Hao ZHOU4,Guo-Qing WANG5,and Xiao-Hua ZHANG2.1 Senior Engineer,Xi’an University of Technology,Xi’an 710048,china 2.Senior Engineer,yellow River {2. of hydraulic research,zhengzhou 450003,china 3 Engineer ,Xifeng Soil and Water Conservation Experimental Station,Qingyang 745000,china 4 Senior Engineer,china {2. of Water Resources and Hydropower research,Beijing 100038,china 5 Senior Engineer,Flood prevention office of YRCC,zhengzhou 450003,china [a]Senior Engineer Xi'an University of Technology Xi'an 710048 china [b]Senior Engineer yellow River institute of {2. research zhengzhou 450003 china [c]Engineer Xifeng Soil and Water Conservation Experimental Station Qingyang 745000 china [d]Senior Engineer china institute of Water Resources and Hydropower {2. Beijing 100038 china [e]Senior Engineer Flood prevention office of YRCC zhengzhou 450003 china

Coarse sediment retention by check dams is analyzed for five typical catchments in the Hekou-Longmen section of the midstream of the yellow River,which is an area of high coarse sediment *** catchments are the Huangfuchuan,Kuye,Wuding,Sanchuan and Qiushui River *** amount of coarse sediment retained by check dams in these areas for different periods was *** reduction due to check dams is compared with other soil conservation measures and the results show that check dams are the most effective to rapidly reduce the amount of coarse sediment entering the yellow *** the average percentage of the drainage area with check dams for the five typical catchments reaches 3.0%,the average sediment reduction ratio can reach 60%.Therefore,to rapidly and effectively reduce the amount of sediment,especially coarse sediment,entering the yellow River,the area percentage of check dams in the Hekou-Longmen section should be kept around 3%.The Kuye and Huangfuchuan River Basins are the preferred main catchments in which such water conservation measures are implemented.

关键词： Sediment retention yellow River Check dam Coarse sediment Grain size

The study on Sanmenxia annual flow forecasting in the yellow River with mix regression model

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Science china(Technological Sciences) 2004年第z1期47卷 118-126页

作者： JIANG Xiaohui1, LIU Changming1,2. WANG Yu3 & WANG Hongrui1 1. Beijing Normal University, Beijing 100875, china 2. institute of Geographic Science and Natural Resources, Chinese Academy of Sciences, Beijing 100101, china 3. Reconnaissance, Planning, Design and research institute, YRCC, zhengzhou 450003, china Beijing Normal Univ Beijing 100875 Peoples R China Chinese Acad Sci Inst Geog Sci & Nat Resources Beijing 100101 Peoples R China YRCC Reconnaissance Planning Design & Res Inst Zhengzhou 450003 Peoples R China

This paper established mix regression model for simulating annual flow, in which annual runoff is auto-regression factor, precipitation, air temperature and water consumption are regression factors; we adopted 9 hypothesis climate change schemes to forecast the change of annual flow of Sanmenxia Station. The results show : (1) When temperature is steady, the average annual runoff will increase by 8.3% if precipitation increases by 10%; when precipitation decreases by 10%, the average annual runoff will decrease by 8.2.; when precipitation is steady, the average annual runoff will decrease by 2.4% if temperature increases 1℃; if temperature decreases 1℃, runoff will increase by 1.2.. The mix regression model can well simulate annual runoff. (2. As to 9 different temperature and precipitation scenarios, scenario 9 is the most adverse to the runoff of Sanmenxia Station of yellow River; i.e. temperature increases 1℃ and precipitation decreases by 10%. Under this condition, the simulated average annual runoff decreases by 10.8%. On the contrary, scenario 1 is the best to the enhancement of runoff; i.e. when temperature decreases 1 ℃ precipitation will increase by 10%, which will make the annual runoff of Sanmenxia increase by 10.6%.

关键词： forecast annual flow, mix regression model, Sanmenxia Station