01 July 2016, Volume 33 Issue 7

    

• Select all
  |

RIVER-LAKE SEDIMENTATION AND REGULATION
• Select
  Delayed Response of Cross Section Area to Variable Incoming Flow and Sediment at Shashi Segment of Yangtze River

  ZHANG Yun-chao, LI Ling-yun, FAN Bei-lin, ZHENG Shan

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 1-5. https://doi.org/10.11988/ckyyb.20150336

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Analysis on the measured flow and sediment data of the middle reaches of the Yangtze River as well as the section data indicates that the adjustment of channel morphology at Shashi station is delayed to the variation of flow and sediment conditions. In order to obtain the regularity of delayed response of Shashi section, we improved the delayed response model for river evolution in the Yellow River in three aspects: 1) define the cross section area at the annual average low water level of Shashi section as the characteristic variable of the delayed response model; 2) introduce the “yearly combined flow” ;3) use the piecewise function in the iterative formula of the model. The results show that the determinant coefficient R² of delayed response model for river evolution at Shashi section is between 0.7 and 0.8.
• Select
  Generalized Simulation of the Longitudinal and Lateral Channel Evolution of Typical Section in the Upper Jingjiang Reach

  ZHANG Yi, XIA Jun-qiang, DENG Shan-shan, ZONG Quan-li

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 6-11. https://doi.org/10.11988/ckyyb.20150352

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  According to the adjustment characteristics of the downstream riverbed of dam after the operation of the Three Gorges Project, we developed a generalized mathematic model for predicting the longitudinal and lateral deformation of riverbed. The computational module of bed evolution is combined with that of bank retreat in this model. Taking cross-section Jing34 in the Upper Jingjiang Reach as a study object, we calculated the longitudinal and lateral deformation processes during the 2006 and 2008 hydrological years by using the generalized model. The predicated erosion volume of the riverbed, total bank retreat width and the failed bank profile were all in good agreement with the measured data. In addition, the effect of the riverbed evolution on the bank profile of cross-section Jing34 in 2006 was also investigated. Simulated results indicate that the position of river bed scouring is mainly concentrated in the low flow channel, and the maximum increase in height of river bank is about 1.9m induced by the river bed erosion. Moreover, the calculated total bank retreat width under the scenario with bed evolution is 20% greater than that under the scenario without bed evolution. Therefore, the bed evolution increases the relative bank height, which can reduce the safety factor of bank.
WATER RESOURCES AND ENVIRONMENT
• Select
  Variations of Hydrogen and Oxygen Isotopes in Meteoric Precipitation in Wuhan, China

  DENG Zhi-min, ZHANG Xiang, PAN Guo-yan

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 12-17. https://doi.org/10.11988/ckyyb.20150293

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In this research we collected the meteoric precipitation samples in Wuhan city during 2011-2013 and combined with the meteorological data and the stable isotopes in precipitation during 1986-1998 provided by International Atomic Energy Agency (IAEA) to establish the local meteoric water line for Wuhan, China. The characteristics of stable isotope in precipitation in Wuhan was analyzed. The results indicated that the local meteoric water line for Wuhan was δD=8.29δ¹⁸O+7.44, in close agreement with China atmospheric precipitation line. Both hydrogen and oxygen stable isotopes in precipitation exhibited significant seasonal variations, δ¹⁸O of precipitation was the largest in spring, and the smallest in summer. There was a negative correlation between δ¹⁸O of precipitation and air temperature and the amount of precipitation, and was changeable in time. The δ¹⁸O of precipitation in Wuhan presented an upward trend. Moisture source is the primary factor determining the hydrogen and oxygen stable isotopes composition in precipitation in Wuhan.
• Select
  Preparation and Application of Palygorskite/Nano-iron Composite

  FENG Xue, DONG Lei, LI Qing-yun, LIN Li

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 18-22. https://doi.org/10.11988/ckyyb.20150235

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  The purity, specific surface area and adsorption properties of palygorskite were improved through wet purification and acid modification. The modified palygorskite was used as a carrier and KBH₄ as a reducing agent to prepare palygorskite/nano-iron composite material using ion exchange method under the protection of argon gas. Hence, the stability of nano-iron could be enhanced, iron-nano particles were prevented from condensing into groups, and the effective area of the nano-iron reacting with pollutants could be increased. Compared with nano-iron, palygorskite/nano-iron composite is more stable and easier to store. Furthermore, with nitrate as target contaminant in groundwater for example, the usage of palygorskite/nano-iron composite in permeable reactive barrier technology, extraction processing technology and injection processing technology in removing nitrate was discussed. Treated by these techniques, the nitrate concentration in groundwater can be effectively degraded.
• Select
  Sensitivity of Analytical Solution to Parameters of 2-D Model of River Water Quality

  FANG Bei, LIU Yuan-hui, GUO Jian-qing

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 23-27. https://doi.org/10.11988/ckyyb.20150237

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  The influences of input parameter errors on the calculation result of 2-D river water quality model were analyzed using local sensitivity analysis and Morris global sensitivity analysis respectively. The sensitivity of analytical solution to input parameters were calculated and compared; the influence of system disturbance on calculated results of pollutant concentration under the action of single parameter or multiple parameters was analyzed. Furthermore, curves of sensitivity obtained from local sensitivity analysis method were given. The results reveal that the sensitivities to parameters were different: the average flow velocity of river is the most influential, whereas the location of pollutant discharge has the weakest influence on pollutant concentration. The sensitivity of calculation result to parameters follows the order of |S_u|>|S_Dy|>|S_y0|>|S_x0|. Besides, the sensitivity calculated by local analysis under the changes of single parameter is different from that by Morris global analysis. Morris global analysis considers the interaction among multiple parameters, therefore is more reliable than local analysis and better reflects the real situation.
• Select
  Application of Moth-flame Optimization Algorithm in Parameter Inversion of Confined Aquifer

  CUI Dong-wen

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 28-33. https://doi.org/10.11988/ckyyb.20150694

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Through 10 typical low dimensional functions, we validate a new kind of swarm intelligent bionic algorithm by simulation, namely moth-flame optimization (MFO)algorithm. We compare the optimization results between MFO algorithm and particle swarm optimization (PSO) algorithm. On the basis of analytical solution of well flow problem without boundary and water flow problem near straight boundary for water insulation, we apply MFO algorithm to analyzing pumping test data and carry out parameter inversion of confined aquifer. Two examples are used to verify MFO algorithm.Results show that, 1) MFO algorithm has advantages such as high convergence accuracy and good global optimization ability in the optimization problem for low dimensional function extremum, which is superior to PSO algorithm, and optimization accuracy of MFO algorithm is higher than that of PSO algorithm by 7 orders of magnitude; 2) MFO algorithm has good robustness, fast convergence speed and global optimization ability, exceeding improved SA algorithm by 56.5% in inversion accuracy for the 2 examples; 3) by using MFO algorithm, we can have an effective method to estimate the parameters of confined aquifer, and also effectively conduct parameter inversion for underground water model. Finally, in comparison with methods in relevant literatures, MFO algorithm has better inversion accuracy and good application value.
WATER-SOIL CONSERVATION AND ECO-CONSTRUCTION
• Select
  Method of Assessing Urban Ecologization Level of Chongqing City and Application

  PAN Zhen-zhen, SU Wei-ci, WANG Jian-wei, GUO Xiao-na

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 34-38. https://doi.org/10.11988/ckyyb.20150364

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In this research, an assessment indicators system for urban ecologization level of Chongqing was established. This system consists of 41 core indicators which were selected from 44 indicators by principal component analysis. The 44 indicators were chosen from 64 basic indicators from the five supporting sub-systems of urban ecosystem based on correlation analysis and coefficient of variation analysis. Furthermore, the degree of Chongqing urban ecologization development from 2005 to 2012 was calculated by using the entropy weight method and relevant formula, and the degree of Chongqing urban ecologization harmony from 2005 to 2012 was calculated using gray correlation analysis method. Finally the urban ecologization index was obtained and classified into five levels. Results show that the urban ecologization level of Chongqing was improved step-by-step, with some fluctuations in certain years, which was overall consistent with the actual situation. In 2005 the value of urban ecologization index was 0.36(level Ⅲ),but rose to 0.73(level Ⅱ) in 2012.However, long-term endeavor is required to go up to level I, and its further development is facing double challenges both from integrality and structure.
FLOOD PREVENTION AND DISASTER REDUCTION
• Select
  Study of Flood Control in the Downstream of Dongjing River

  WANG Da-ming, YOU Xing-ying, TANG Jin-wu, WENG Zhao-hui, WANG Lin

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 39-45. https://doi.org/10.11988/ckyyb.20150450

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In recent years, high flood level lasts in the downstream of Dongjing river during flood period. Analysis shows that the United Dyke was surrounded in 1970s during the regulation project of Dongjing River, but deep groove dredging was inadequate. Moreover, reclamation and siltation of dyke in the bottomland are continued, which lead to high flood water level at Yanglinwei station in Dongjing river. In view of this, we analyze the flood control situation of Hanjiang river after the Danjiangkou dam’s heightening and the situation of Yangtze river after Three Gorges Reservoir’s impoundment. Furthermore, we determine suitable standard of flood control in the downstream of Dongjing river(4 250 m³/s as the import flow from Dongjing river, 28.28 m as the export water level of Hankou station, 31.0 m as the control water level of Yanglinwei station). Through channel dredging project, the discharge capacity in the downstream of Dongjing river is amplified effectively. We design three schemes for flood control . In scheme 1, current spacing of levee is unchanged and deep groove dredging is needed. Calculated results of two-dimensional mathematical model show that scheme 1 has advantages such as low investment, easy construction, and obvious reduction of flood water level, so we choose it as recommended scheme.
FIELD INVESTIGATION AND OBSERVATION
• Select
  Discussion on Recent Spatial-temporal Distribution of Water Quality in Changjiang River Source Area

  HUANG Zhuo, LIU Yue-xiao , ZHAO Wei-hua, ZHAO Liang-yuan

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 46-50. https://doi.org/10.11988/ckyyb.20160248

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Source area of Changjiang River is located at Qinghai-Tibet Plateau with severe climates. Due to technical limits, there are few investigation and reports about the unique ecological environment conditions in the source area. According to monitoring data of water quality obtained from scientific investigations in the source area in 2012, 2014 and 2015, we analyze conventional monitoring indicators and water quality indexes such as organic and metal pollutants. On the basis of the analysis, we discuss the spatial-temporal distribution of water quality in the source area in recent years. Results show that firstly, water quality of rivers in the source area are good, and water quality belongs to I type or II type in most regions; secondly, influenced by sediment contents of water body and regional geological conditions, water quality indexes vary among rivers in different regions in the source area; furthermore, water quality shows a small inter-year variation with a similar fluctuation; in comparison with the background values of other rivers in China and abroad, values of water quality in the source area are basically within the range of background values of river; finally, organic pollutants such as phthalic acid esters are detected in surface water samples of the source area. The results are important for further study on the water ecology of Changjiang source area.
ENGINEERING SAFETY AND DISASTER PREVENTION
• Select
  Design and Implementation of 3-D GIS-based Monitoring and Warning System for Geological Hazard in Danjiangkou Reservoir Area

  CHEN Bei-qing, TIAN Xue-dong, CAO Hao, JIA Jin-ke, ZHANG Yu

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 51-54. https://doi.org/10.11988/ckyyb.20150270

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  The overall structure and features of a 3-D GIS-based monitoring and warning system for geological hazard are expounded. Key technologies including information gathering network and communication, temporal GIS, geo-hazard monitoring and warning based on multiple models are analyzed and introduced. The system with multiple layers adopts highly scalable structure and flexible deployment. GIS, virtual simulation, and WEB asynchronous service based on multi-user concurrent are also employed. Through the system, functions of information gathering, communication, management, analysis, decision-making, and warning are integrated. The system is applied to Danjiangkou reservoir as a trial. Finally, the research provides reference for the scientific management of geological hazards and emergency response.
HYDRAULICS
• Select
  Experimental Study on Anti-swirl Pier at the Intake of U-shaped Diversion Weir

  PENG Cheng, WANG Jun-xing, TAN Zhe-wu

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 55-59. https://doi.org/10.11988/ckyyb.20150438

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Intake vortex is a hydraulic problem which is common in actual project. In order to solve the problem, we take Qinghe water diversion project, located in Liaoning province, as research background. By using physical model test with big scale of 1∶10, we lay emphasis on intake vortex in diversion weir. There are three causes of vortex in original scheme: relative critical submerged water depth, velocity and circulation, and intake boundary condition. From the perspective of boundary condition, we analyze these causes and propose modified anti-swirl scheme, which contains side wall segment straightening and U-shaped diversion weir with anti-swirl pier. Experimental results prove that the modified scheme can be used to avoid initial circulation at intake and improve the flow pattern throughout diversion intake, in the same time, we can use it to optimize intake boundary conditions and significantly eliminate vortex at water inlet.
• Select
  Energy Characteristics of Flow along Stepped Spillway

  WEN Ming-yi, LIU Han-sheng, FAN Ling-zhi, LIU Si-yuan

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 60-62. https://doi.org/10.11988/ckyyb.20150329

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to study the energy characteristics of water flow on stepped spillway, we conducted model test of stepped spillway with slope ratio of 1∶1.25 and different step heights. The results indicated that gross head of stepped spillway decreased dramatically along the flow path, and specific energy on stepped spillways first increased and then remained constant. The change of specific energy determines the gross head,and low stable specific energy reflects better energy dissipation. Two dimensionless parameters of stable specific energy and its influencing factors were obtained through dimensional analysis,and a good power function law was found between the two dimensionless parameters based on the data from test and related literature, with the correlation coefficient between 0.9949 and 0.9972. An empirical formula for calculating the residual energy and gross dissipation rate was put forward to provide references for related design.
ROCK-SOIL ENGINEERING
• Select
  Simulation of Multi-hole Hydraulic Fracturing Using FDEM-flow Method

  YAN Cheng-zeng, ZHENG Hong

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 63-67. https://doi.org/10.11988/ckyyb.20150234

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to instruct construction of hydraulic fracturing, with the proposed FDEM-flow method, we studied multi-hole hydraulic fracturing. When the pressure of hole H2 is small, crack starting from hole H1 hardly deflects toward hole H2; when water pressure of H2 is large, crack starting from H1 propagates to H2 obviously; while when pressures of H1 and H3 increase synchronously, crack extended downward from hole H1 deflects towards hole H3, and crack starting from hole H3 develops towards hole H1, and finally, two opposing propagation cracks form between H1 and H3. Results show that, direction of hydraulic fracturing cracks will be interfered by adjacent holes, hence the direction can be controlled through adjusting the pressure of adjacent holes; while the initiation water pressure that crack begins to occur can be reduced through the adjacent interference, which validated the rationality of synchronous hydraulic fracturing technology.
• Select
  Influence of Meso-mechanical Parameters of Bedding Plane on Strength Characteristics of Layered Rock Mass

  XIA Lei, ZENG Ya-wu, ZHANG Sen

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 68-75. https://doi.org/10.11988/ckyyb.20150451

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  The influence of meso-mechanical parameters at bedding plane on the strength characteristics of layered rock mass was studied by using particle flow method. Mechanical parameters of the bedding plane were divided into three aspects at meso-scale:bond strength, friction action and interlocking. The impact of bedding mechanical parameters on the overall strength of the rock mass was preliminarily analyzed, in association with uniaxial compression tests under different bedding inclinations by numerical simulation. The results showed that: (1)when the difference between bedding bond strength and bedrock strength is big enough, the impact can be negligible, but smaller the difference is , bigger the impact is; (2) the friction of the bedding structure has little effect on the overall strength of rock mass; (3) bedding thickness reflects the interlocking, and it was an important influencing factor for global macroscopic strength of rock specimen;(4)under particle distribution in the experiment, it is rational when bedding thickness is about three times as much as the smallest particle radius.
• Select
  Simulation of Acoustic Emission and Damage Properties of Granite in Brittle and Ductile Failure Processes

  WANG Yun-fei, YANG Wen-xuan, JIAO Hua-zhe, WANG Li-ping, ZHAO Hong-bo

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 76-80. https://doi.org/10.11988/ckyyb.20150417

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to explore the acoustic emission characteristics and damage evolution mechanism of granite in brittle and ductile failure processes, we carry out uniaxial experiment on granite, and simulated experiment under different confining pressures through PFC(particle flow code). On the basis of test, we obtain the acoustic emission curve in failure process and reproduce the evolution process of internal damage. Test results are as follows: 1) critical confining pressure from brittle failure to ductile failure is 100MPa; 2) lag effect of maximum acoustic emission intensity is significantly affected by confining pressure in brittle failure, and the greater confining pressure is, the less obvious lag effect is; 3) in ductile failure, maximum acoustic emission intensity and peak stress appear in the same time without lag effect; 4)acoustic emission curve has single peak in brittle failure ,while gentle curve form in ductile failure; 5)there are few internal serious damage zones in brittle failure with concentrated distribution, and crack extension tends to be in the same direction; 6) internal serious damage zones which distribute throughout the specimen in ductile failure are more than those in brittle failure, and crack extends mainly along two mutually orthogonal directions ;7) rupture angle gradually reduces as confining pressure increases, and rupture surface transforms into crushing zone with the increasing of confining pressure; 8) in brittle failure with low confining pressure, rock is cut into a few blocks ,while in ductile failure with high confining pressure, the rock destruction is comminuted.
• Select
  Analysis of Fractional Order Derivative Nishihara Model of Frozen Remolded Clay Based on Ant Colony Algorithm

  YAO Zhao-ming , ZHANG Qiu-jin , NIU Lian-seng

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 81-86. https://doi.org/10.11988/ckyyb.20150419

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  It is of great significance to master the creep law of rock-soil body under frozen state for the safe shaft construction by using freezing method. We carry out uniaxial compressive strength tests for artificial freezing remolded clay at the temperature of -5℃,-10℃ , -15℃,respectively.Furthermore, we obtain the relationship between temperature and uniaxial compressive strength of artificial freezing remolded clay. According to uniaxial strength under frozen state of remolded clay, we conduct creep test with 3 loading levels and obtain the influence of temperature and loading level on creep. Furthermore, we introduce Abel dashpot into Nishihara model and establish fractional order derivative Nishihara model. Finally, by introducing ant colony algorithm into frozen remolded clay, we finish parameter identification for Nishihara creep model and fractional order derivative Nishihara model. Through analyzing simulated results in two models, we can find that fractional order derivative Nishihara model is more appropriate than creep Nishihara model in creep calculation for frozen remolded clay.
• Select
  Mathematical Description of One-dimensional Compression Behaviour of Structured Soft Clays

  KE Wen-hui, CHEN Jian, SHENG Qian, FANG Qiang, BIAN Xiao-man, ZHAO Qing

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 87-92. https://doi.org/10.11988/ckyyb.20150322

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to explore the effect of structure on one-dimensional compression deformation of soft clays, we described the characteristics of structural failure under one-dimensional compression firstly. On this basis, the relationship between compression index and void ratio was revealed and a new mode that describes the progressive destructuration during the 1D compression was proposed. Secondly, the formula of the virgin compression curve of structured soft clays is deduced based on the above proposed descriptive mode and the effects of structural parameters on the virgin compression curves are analyzed. Thirdly, the experimental data of 10 representative structured clays from literatures together with the results of conventional oedometer tests on Ningbo clay are used to verify the proposed descriptive mode’s validity. Furthermore, a comparative analysis on the simulated results of 1D compression curves for Mexico City clays is made between the proposed descriptive mode and other 6 common descriptive modes. Finally, the variation regularity of structural parameters with the difference between nature water content and plastic limit is discussed and then the empirical formulas of structural parameters are established by the linear regression method. The results show that the proposed descriptive mode characterizes the compression destructural behavior of structured soft clays under 1D loading condition accurately. This research provides theoretical basis for establishing constitutive models of natural structured soft clays, and also offers a new idea for further study on compression deformation behavior.
• Select
  Three-Dimensional Particle Flow Simulation of Uniaxial Compression Tests on Soil-rock Mixture

  JIN Lei, ZENG Ya-wu, YE Yang

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 93-99. https://doi.org/10.11988/ckyyb.20150423

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to study the deformation failure mechanism of soil-rock mixture under uniaxial compression in the presence of different rock block proportions,on the basis of the refined method for constructing discret element method(DEM) model of irregularly shaped particles, a random technique to constructing DEM model of irregularly shaped rock block is proposed and 3-D particle flow models of soil-rock mixture which conform to the macroscopic statistical rule are established. Then, particle flow simulations of uniaxial compression tests are conducted. It is noteworthy that with the increment of rock block proportions, the uniaxial compressive strength and the elastic modulus both decrease. Stress-strain curves of soil-rock mixture with medium-low rock block proportions (0, 10%, 30%, 50%) show a typical feature of strain softening; whereas stress-strain curves of soil-rock mixture with high rock block proportions (70%, 90%) show some degree of plastic flow characteristics after peak stress. Micro-cracks in the specimens of SRM with medium-low rock block proportions are mainly tensile cracks, resulting in macroscopic tensile rupture; while few micro-cracks develop in the specimens of soil-rock mixture with high rock block proportions, which are mainly shear cracks, resulting in macroscopic shear failure.
• Select
  Influence of Large-scale Pit-in-pit on Stability of Foundation Pit

  ZHU Jin-jun, SHAO Yong, HE Yong-fu

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 100-104. https://doi.org/10.11988/ckyyb.20150279

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Numerical model based on project example was established to analyze the influence of pit-in-pit on the stability of foundation pit. The influence of excavation depth, slope angle and width of platform on the displacement of pile top was analyzed. Results showed that with the increase of excavation depth and slope angle and the reduce of platform width, the displacement of support pile tended to increase. In the presence of different platform widths and excavation slope angles, a critical excavation depth existed; and when the excavation depth was determined, a critical platform width existed. With the increase of area ratio, the displacement of supporting pile decreased gradually, and while the area ratio reached a certain value, the displacement of pile no longer decreased. It is concluded that as long as the width of platform is enough, the pit-in-pit has almost no effect on the stability of foundation pit. Analysis results can be referenced for stability design of pit-in-pit in similiar projects.
• Select
  Rules of Load Transfer between Soil and Reinforcement in Reinforced Earth Retaining Wall with Sandy Cobble

  WANG Duo-yin, GAO Chao, WANG Cheng-zhi, HAN Chao, TONG Ya

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 105-109. https://doi.org/10.11988/ckyyb.20150332

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to study the rules of load transfer between reinforcement and soil in reinforced earth retaining wall with sandy cobble, the reinforced soil was considered as composite materials in which soil and reinforced belt was regarded as matrix and reinforcing material, respectively. The soil around the reinforcement was separated into the interface layer and the effective influence layer under axial load. Based on the hypothesis that the additional shear stress produced by the reinforcement turned to linear attenuation in the effective influence layer, we modified the traditional shear-lag model and established the stress equilibrium differential equation for the reinforcement, from which attained the axial stress analytical solution of the reinforcement. After comparing with the drawing test data, we found that the theoretical derivation was in accordance with the test results. According to the research, the axial stress of reinforcement increases firstly, and then decreases along the reinforcement length l, which shows parabolic-shaped distribution; and a maximum value appeared at a distance less than l/2 from the wall. The soil close to the reinforcement appeared banded effective influence layer, and the additional shear stress caused by the reinforcement in the effective influence layer turned to attenuate linearly along the normal direction.
• Select
  Seismic Response Analysis in Consideriation of Saturated Two-phase Medium

  CHANG Chao-yu, BO Jing-shan, LI Xiao-bo , LI Yu-dong, ZHANG Zhao-peng

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 110-114. https://doi.org/10.11988/ckyyb.20150966

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Saturated soil layer, located below underground water level, is a two-phase medium(fluid-saturated porous medium). We take into account the interaction between water and soil for wave propagation. In order to consider the coupled effect of soil and water in saturated soil, we introduce Biot’s theory of fluid-saturated porous media to seismic response of soil layer, calculating seismic response of the layer. On the basis of finite difference method and artificial transmitting boundary method, we put forward a method for seismic response analysis for soil layer of two-phase medium. Monitoring well No.3 of Xiangtang array is taken as an example. Furthermore, we use the new method to calculate soil seismic response at the array, and compare the results with results from equivalent linearization method, as well as actual records from intense earthquakes. Results show that both the new method and equivalent linearization method could reflect time-history curves and response spectrum data, which is similar to measured data; theoretical model of the new method is superior to single phase method, with less difference between calculated data and measured data.
• Select
  Discontinuous Deformation Analysis of Slope Dynamic Characteristics under Different Geological Conditions

  LIU Yong, WANG Yun-sheng, TANG Qi, CHEN Yi-xi

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 115-120. https://doi.org/10.11988/ckyyb.20150453

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In order to analyze the dynamic response of slope, we establish a slope analysis model by using improved DDA(discontinuous deformation analysis), and obtain contours of acceleration amplification coefficient in slope body. First of all, we verify that viscous boundary distance has minimal effect on dynamic response characteristics of slope. Secondly, we analyze the changes of amplification coefficient with elevation and depth in the presence of different slope angles, slope heights, lithology, periods of seismic wave, etc. Analysis shows that, 1) if slope angle or slope height is smaller than a certain value, amplification coefficient increases with elevation and depth; 2) harder rock or longer period of input wave will lead to bigger amplification coefficient; 3) in case of adverse geological bodies such as joint and weak interlayer, seismic wave propagation will be influenced by reflection and transmission, thus affecting dynamic response characteristics of slope. On the basis of DDA, we can find the following results. Big elastic modulus is in favor of transmission effect of joint on wave propagation. When the ratio of joint spacing to input wave length is smaller than critical value, the greater the ratio is, the stronger the effect of joint on transmission wave is. If rock under interface is harder than that above the interface, and when the difference between two elastic modulus increases, the reduction of peak acceleration in transmission wave gradually tends to be obvious. On the contrary, the reduction will be changed into amplification. When weak interlayer thickness or ratio of the thickness to acoustic impedance in surrounding rock is bigger, transmission effect of seismic wave through weak interlayer is smaller.
HYDRAULIC STRUCTURE AND MATERIAL
• Select
  Velocity Equations for High-order Numerical Manifold Method

  SU Hai-dong

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 121-125. https://doi.org/10.11988/ckyyb.20150343

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Computational accuracy of structure deformation can be improved greatly by the high-order Numerical Manifold Method (NMM). However, poor accuracy or even incorrect velocity results were obtained in the dynamic analysis involved in large displacement. Based on 2-D triangular mathematical meshes and 1-order polynomial cover functions, the reason of the above cases is discussed through an example of rotation of a rigid bar in this paper. Three treatments and the corresponding equations for high-order velocities are presented for the first time, reflecting the change of configuration coordinates under large displacement. The high-order numerical manifold method is useful to other methods such as Generalized Finite Element Method (GFEM) which introduces generalized freedoms at nodes when solving geometric nonlinear problems.
• Select
  Regularity of Compressive Strength Deterioration and Grey Prediction of Concrete Corrosion in Ammonium Sulfate Solution

  DENG Tong-fa, PENG Jian, OUYANG Bin, ZHU Pei-dong, LIN Huang

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 126-131. https://doi.org/10.11988/ckyyb.20150354

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  Corrosion tests were carried out by immersing concretes in ammonium sulfate solution of 5% concentration. The concretes are of different material compositions of water cement ratio, paste aggregate ratio and content of fly ash. The regularity of deterioration of compressive strength of immersed concretes during 0-120 d corrosion age were obtained. The grey correlation analysis method was used to research the influence of different factors on the compressive strength of concrete, and the GM (1,1) prediction model was established to forecast the service life and strength deterioration of the concretes in ammonium sulfate solution. Results show that the concretes with water cement ratio of 0.4, paste aggregate ratio of 0.28 and fly ash content of 10% have better anti-erosion performance. Moreover, the compressive strength of concretes declines significantly with the increases in water cement ratio, paste aggregate ratio and fly ash dosage. The prediction results by the GM(1,1) model indicate that the lifetimes of concretes with water cement ratio of 0.4, paste aggregate ratio of 0.28 and fly ash content of 10% increase by 247%, 125% and 74% than those of concretes with the same influence factors, respectively.
• Select
  Study on Anti-sliding Stability of Deep Layer under Gravity Dam with Complex Foundation Based on Catastrophe Theory

  WANG Zhi-peng, SUN Jian-sheng, ZHAO Dan

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 132-136. https://doi.org/10.11988/ckyyb.20150458

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  There are several weak structural planes in some gravity dams with complex foundation, which will affect the anti-sliding stability of deep layer. In order to explore the problem, we establish a finite element model of gravity dam-foundation system for a reservoir project by using finite element software of ANSYS. We adopt a comprehensive method of overload and strength reduction, considering water load and the change of material factor at the same time. Then, in association with cusp catastrophe theory, we obtain the variations of horizontal displacement at feature points and relative displacement between upper and lower points of weak interlayer with comprehensive coefficient. By establishing the standard potential function of the model, we can judge that gravity dam is instable or stable according to the function’s discriminant. In order to represent structure state better, we should adopt proper index such as the relative displacement between upper and lower points of weak structural plane. Anti-sliding stability coefficient of the example is within the range of [3.125,3.188] by using the comprehensive method, while in traditional rigid limit equilibrium method, the range is [3.039,3.667], so the two ranges are similar. For more precise identification of instability, we should combine criteria mentioned with other criteria and develop a comprehensive evaluation system.
INFORMATION TECHNOLOGY APPLICATION
• Select
  Current Situation and Prediction Analysis of Land Use Changes in Carbon Emissions Based on RS and GIS

  YANG Kun, HU Xin, SHI Yue

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 137-141. https://doi.org/10.11988/ckyyb.20150229

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  The land use in Lhasa is divided into six types inclusive of farmland, woodland, grassland, water area, building land and unused land according to the remote sensing data in 2000 and 2010 on Erdas platform. Then the distribution of land use and land use transition matrix in the two periods are obtained using ArcGIS spatial analysis techniques, and the land use changes of the years 2020, 2030 and 2040 are predicted by using Markov model. On this basis, the carbon emissions per year of these years are calculated and the emissions every 10 years in the region are predicted. The final results show that the change of ecological land structure and the increase in ecological land (forest) area are the main causes of carbon sequestration. Overgrazing, increasing consumer demand for animal husbandry and development of tourism are the main causes of carbon emissions during land use change. Finally, some suggestions to control carbon emission and limit the decrease of ecological land are put forward: protecting ecological environment, restricting overgrazing, and promoting low-carbon tourism.
• Select
  Geohazard Monitoring and Management System Based on IoT and 3D GIS

  JIA Jin-ke, MA Hui, CAI Xi-wen, CHEN Bei-qing, SHEN Shao-hong

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 142-144. https://doi.org/10.11988/ckyyb.20150245

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In this paper,a geohazard monitoring and management system for large-scale reservoir involving the obtaining,management, analysis and expression of geohazard monitoring data, is constructed based on IoT (Internet of Things),3D WebGIS and spatial database technology.Firstly,we construct a sensor network for geohazard monitoring according to monitoring parameters and get remote monitoring data.Secondly,in true geographical environment of 3D network,we can realize 3D network expression and interactive application of real-time monitoring results,as well as simulation analysis of geohazard.Landslide monitoring and management in Danjiangkou reservoir area are taken as examples.The results show that,the system is stable,effective and intelligent,and the system can support landslide monitoring and management in the reservoir area and it has a good application prospect.
CONSTRUCTION AND MANAGEMENT OF WATER CONSERVANCY PROJECTS
• Select
  Application of Multi-beam Echo Sounder to Underwater Quality Inspection of Laying Revetment Mattress

  ZHAO Gang, WANG Mao-mei, XU Yi, SHI Yin-tao, CAI Jun

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 145-149. https://doi.org/10.11988/ckyyb.20151130

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  In recent years, hinge mattress technique is widely used because of good revetment effect. The quality of laying mattress has direct influence on the protection effect, so underground laying quality and inspection are important. As for inspection index of laying process of underground mattress, we study it by using several advanced inspection techniques. Then we apply multi-beam echo sounder to the quality inspection of underwater laying process of underground mattress, and obtain accurate data in accordance with underwater inspection indexes in Jiangsu provincial standard(Water Conservancy Project Construction Quality Inspection and Assessment Standards).The research results offer reference for quality assessment and acceptance in similar projects.
SCIENCE AND TECHNOLOGY NEWSLETTER
• Select
  A New Technique in Channel Regulation Projects: Pile Net-Sand Pillow Dam

  HE Zi-can, QU Geng, HE Guang-shui

  Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 150-154. https://doi.org/10.11988/ckyyb.20160340

  Abstract ( ) Download PDF ( )   Knowledge map   Save

  During the construction of channel regulation project in the middle and lower Yangtze river, plentiful stone materials are quarried through blasting, which leads to ecological destruction of stone materials source area. In view of the situation and the demand of reducing stone materials during construction of channel regulation projects, we present a new technique for channel regulation project, namely pile net-sand pillow dam(PNSPD).We propose the material structure and construction process of the new technique. On the basis of analyzing waterlogging damage mechanism of PNSPD, we put forward some countermeasures. Based on the analysis of several features, including durability, integrity, adaptability and material availability, we conclude that technical characteristics of PNSPD can meet the requirements of channel regulation project. Furthermore, as for architecture comprehensive cost for the same type and equal efficiency, PNSPD is an economical scheme in comparison with other schemes. Finally, the new technique of PNSPD is feasible for channel regulation project, with ecological, economic and social advantages for further application.