共查询到20条相似文献,搜索用时 13 毫秒
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Yong-Nian XU Zhi-Yong LIANG Thao-Yin WANG China Institute of Water Resources Hydropower Research Beijing China. International Research Training Center on Erosion Sedimentation Beijing China. 《国际泥沙研究》2001,16(2)
1 wrsoooCTIoxThe Yeuow mver crtes a huge amoun of sedimcht and the noods often cause raPid and severeerosinn and dePOsihon. The channl bed of the YelOw mver often exPeriences degIadation in the mainchannel during fioods. In some cases vigorous erosion uP to l0 meters takes place in a shOrt Period oftiIn. Such phenomenon usually occurs in the ndddie reaChs of the Yelow mver and its tributaries suchas the Wdse mVer the Beiluohe mver etc. For examPle, th6 hyPenconcentraed nood in July l… 相似文献
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EXPERIMENTAL INVESTIGATIONS AND NUMERICAL SIMULATIONS OF REDUCING SECONDARY FLOWS AROUND A SPUR DIKE
Xuelin TANG Xiang DING Zhicong CHEN Wenlong WANG 《国际泥沙研究》2006,21(2):145-157
1 INTRODUCTION The Yangtze River at the Three Gorges Project (TGP) site meanders with a complex morphology, including ridges like Jiuling Hill that projects into the approach navigation channel (Fig. 1). The approach navigation channel consists of a 530-m… 相似文献
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为了研究海沟型巨大地震发生机制及其构造动力学特征,详细研究了地震活动与震源机制结果,根据地震俯冲带几何形状及其内应力场区域特征,南海海槽下的俯冲带可划分为两段: 东部的四国-纪伊半岛段和西部的九州段. 东部的菲律宾海板块地震俯冲带呈现出低角度俯冲(10°~22°),且俯冲深度相当浅(60~85km)的特征;而西部九州段的俯冲带为高角度俯冲(40°),且俯冲深度较深(160km). 东、西部俯冲带内部应力场也截然不同. 东部的四国大部分地区和纪伊半岛的俯冲带内表现为俯冲压缩型应力场, 而西部的九州段则为明显的俯冲拉张型应力场. 本文在综合分析了重力异常、GPS、热流量等地球物理观测结果后指出,南海海槽东部, 即四国-纪伊半岛以南的海槽区域, 具有与智利海沟极其相似的地震发生板块构造动力学背景和高应力积累等特征, 属于年轻活动俯冲带的高应力型俯冲. 而西部的九州段,虽然也是海沟型地震活动区, 但不具有大地震发生的构造动力学背景和高应力积累, 不属于年轻活动俯冲带的高应力型俯冲. 俯冲带年龄的不同很可能是造成南海海槽东、西段板块构造动力学以及应力场不同的根本原因之一. 相似文献
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大华北新构造运动和地震活动“成片迁移”的成因探讨 总被引:5,自引:0,他引:5
基于板块间的作用及有关物理参数,分别组构了大华北第Ⅲ(1484-1739年)、第Ⅳ(1815年至今)地震活动期的动力边界和厚度非均匀的“薄板”模型,采用有限元法,并根据地壳屈曲的研究,作了屈曲变形计算.所得屈曲图象与大华北新生代隆起、凹陷分布的基本特征一致,也与近30年来大华北垂直形变速率的分布特怔吻合.不同期高变形梯度区不同,7级以上地震均分布在这种区内.由此得出了新构造运动和地震“成片迁移”的力学机制. 相似文献
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EFFECTOFEXISTENCEOFSEDIMENTPARTICLESONTHEENERGYLOSSOFFLOW¥LIUQingquan;CHENLiandLIUDayou(Assoc.ResearchFellow,InstituteofMecha... 相似文献
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SHAO Xuejun XIA Zhenhuan ①Lecturer Deportment of Hydraulic Engineering Tsinghua University Beijing China ②Professor Department of Hydraulic Engineering Tsinghua University Beijing China 《国际泥沙研究》1991,(2)
The random motion of sediment particles suspended in a turbulent flow is studied by means of stochastic process. Results of analysis of particle's frequency response to the random force exerted on the particle due to fluid turbulence suggest that only the lower part of the whole frequency range of the eddy motion will govern the motion of the particle. The mean values of particle velocity and displacement in the vertical direc- tion are calculated and it is found that particle velocity vp- can be decomposed into a mean motion and a velocity fluctuation vp- , where is equal to the fall velocity in tranquil fluid. An Ito^ random differential equation for particle dis- placement Yp is developed, from which a Fokker-Planck equation for the probability density function p(y,t) is derived on the basis of the theory of Markov process, where y denotes the vertical coordinate. The vertical distribution of the particle is thus interrelated to the random motion of the particle. The an effect that a particle will be subject to in the neighborhood or the bottom boundary is taken into consideration and a corresponding Fokker-Planck equation is developed. Analytical solution of the Fok- ker-Planck equation including the lift force effect shows that probability density p(y,t) for the particle displacement has a maximum value at y = H where the perpen- dicular component of the lift force balances the particle gravity. This theoretical result agrees with experimental observations as reported in literature. 相似文献
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轻质填充墙异型柱框架弹性阶段地震作用计算 总被引:1,自引:0,他引:1
本文在四个模型试验研究基础上,建立了轻质填充墙与异型柱框架共同工作的弹性动力计算模型,给出了结构弹性阶段地震作用的计算方法。 相似文献
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MODELING OF THE HIGH CONCENTRATION LAYER OF COHESIVE SEDIMENT UNDER THE ACTION OF WAVES AND CURRENTS
Qinghe ZHANG Yongsheng WU Jijian LIANand Pingxing DING School of Civil Engineering Tianjin University Tianjin China Dept. Hydraulic Engineering Tsinghua University Beijing China State Key Lab. of Estuarine Co 《国际泥沙研究》2001,16(2)
MODELING OF THE HIGH CONCENTRATION LAYEROF COIIESIVE SEDMNT UNDER Tus ACTIONOF WAVES AND CURRENTSQinghe ZHANG', Yongsheng WU', Jiian LIAN1 and Pingxing DING3Abstract:High concenhation layer of cohesive sediment frequenhy occurs in muddy estUaries and coastalzones, and causes raPid siltation of the waterways. A one dimensional vertical coupled modeldescribing the interactions betWeen waves, currentS and suspended cohesive sediment is develoPed inthe pre… 相似文献
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RESTORATION OF THE ORIGINAL TOPOGRAPHY OF THE XIAONANHAI LANDSLIDE IN CHONGQING AND CALCULATION OF ITS VOLUME 
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下载免费PDF全文 As documented in history, an M6¼ earthquake occurred between Qianjiang, Chongqing and Xianfeng, Hubei(also named the Daluba event)in 1856. This earthquake caused serious geological hazards, including a lot of landslides at Xiaonanhai, Wangdahai, Zhangshangjie and other places. Among them, the Xiaonanhai landslide is a gigantic one, which buried a village and blocked the river, creating a quake lake that has been preserved to this day. As the Xiaonanhai landslide is a historical earthquake-induced landslide, it is impossible to obtain the remote sensing image and DEM data before the earthquake, which brings certain difficulties to the estimation of landslide volume and the establishment of numerical simulation model. In this paper, the original topography before the earthquake is inferred by the methods of geomorphic analogy in adjacent areas and numerical simulation, and the volume of the Xiaonanhai landslide body is calculated. Firstly, the principle and application of UAV aerial photography are introduced. We employed an unmanned airplane to take pictures of the Xiaonanhai landslide and adjacent areas, yielding high-precision DOM images(digital orthophoto graph)and DEM data which permit generating terrain contours with a 25m interval. We also used the method of intensive manual depth measurement in waters to obtain the DEM data of bottom topography of Xiaonanhai quake lake. Based on field investigations, and combining terrain contours and DOM images, we described the sizes and forms of each slump mass in detail. Secondly, considering that the internal and external dynamic geological processes of shaping landforms in the same place are basically the same, the landforms such as ridges and valleys are also basically similar. Therefore, combining with the surrounding topography and landform of the Xiaonanhai area, we used MATLAB software to reconstruct two possible original landform models before the landslide. The original topography presented by model A is a relatively gentle slope, with a slope of 40°~50°, and the original topography presented by model B is a very high and steep slope, with a slope of 70°~80°. Thirdly, Geostudio software is used to conduct numerical simulation analysis on the slope stability. The safety factor of slope stability and the scale of landslide are analyzed under the conditions of static stability, seismic dynamic response and seismic dynamic response considering topographic amplification effect. The results show that large landslide is more likely to occur in model B, which is more consistent with the reality. In order to verify the credibility of recovered DEM data of valley bottom topography, we visited the government of Qianjiang District, collected the drilling data of 11 boreholes in two survey lines of Xiaonanhai weir dam. It is verified that the recovered valley bottom elevation is basically consistent with that revealed by the borehole data. Finally, according to the two kinds of topographic data before and after the landslide, the volume of the landslide is calculated by using the filling and excavation analysis function of ArcGIS software. There is a gap between the calculation results of filling and excavation, the filling data is 3×106m3 larger than the excavation data. The reasons are mainly as follows: 1)Due to the disorderly accumulation of collapse blocks, the porosity of the accumulation body became larger, causing the volume of the fill to expand; 2)It has been more than 150a since the Xiaonanhai earthquake, and the landslide accumulation has been seriously reconstructed, therefore, there are some errors in the filling data; 3)The accumulation body in Xiaonanhai quake lake might be subject to erosion and siltation, this may affect the accuracy of the filling data. In conclusion, it is considered that the calculated results of the excavation are relatively reliable, with a volume of 4.3×107m3. 相似文献
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用地磁场总强度空间线性相关方法对辽宁省内及周围地区几次中强地震的预报总结 总被引:2,自引:0,他引:2
用地磁场总强度空间线性相关方法,分析了辽宁省及周围地区几次中强地震发震的地磁前兆特点,并给出了发震时间、地点的判别方法。 相似文献
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本文利用地震资料并结合地质资料,讨论了印度板块与欧亚板块在中国周边的相互作用及其对中国应力场的影响,指出两板块在喜马拉雅山前断裂地区碰撞,碰撞边界向西延续到35°N,74°E附近,其主要挤压方向为NNE,并形成SE方向的物质流动.帕米尔地区有强烈的构造运动,并存在俯冲带形态的构造.在26.5°N,97°E附近,板块边界的走向发生突变,并形成东倾的缅甸山弧俯冲带,但印度板块挤压造成的主压应力方向为NNE向.在安达曼-尼科巴-苏门答腊-爪哇岛弧,印度板块俯冲于欧亚板块之下,在中国南海一带形成NNW向或近Ns向的主压应力. 相似文献