01 February 2021, Volume 38 Issue 2

    

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SPECIAL CONTRIBUTION
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  Scientific Issues and Solutions in Ecological Compensation of the Yangtze River Basin

  CHEN Jin, YIN Zheng-jie

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 1-6. https://doi.org/10.11988/ckyyb.20201094

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  Yangtze River Protection is a crucial part of the Chinese national ecological civilization construction. Establishing ecological compensation system for the river basin is a pivotal mechanism of implementing the Yangtze River Protection. The current research situation and practice of ecological compensation in the Yangtze River Basin are summarized. On this basis, the key scientific issues and potential solutions in the ecological compensation of the Yangtze River Basin are put forward. The key scientific issues include: the spatial-temporal relationship and mutual feedback mechanism of economic and social development and eco-environmental protection and between upstream and downstream areas of the basin, the dynamic accounting and space-time conversion relation of the physical and value amounts of natural resources, and the market-oriented multi-stakeholder compensation modes. In order to solve these problems, we should not only learn from foreign theories and methods, but also combine scientific problems with management problems according to the natural resources endowment and economic and social development level of China and the Yangtze River Basin. Only in this way can we establish an effective, scientific and reasonable ecological compensation mechanism and realize the great protection of the Yangtze River and the high-quality development of the river basin.
WATER RESOURCES AND ENVIRONMENT
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  Temporal and Spatial Distribution of Arsenic after Storage in Zongtongka Reservoir: Simulation and Evaluation

  ZHAI Wen-liang, CAO Hui-qun, LUO Ping-an

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 7-11. https://doi.org/10.11988/ckyyb.20191250

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  A three-dimensional model of predicting arsenic in water and sediment was constructed to scientifically evaluate the influence of arsenic on Zongtongka Reservoir after reservoir formation. The adsorption equilibrium of sediment on arsenic after reservoir impoundment was analyzed through isothermal adsorption test. The Guoduo Reservoir which is of similar hydrological and water quality conditions with Zongtongka Reservoir verified the model parameters and simulated the three-dimensional distribution of arsenic in different water periods after the Zongtongka Reservoir was impounded. Results revealed that after water storage, the sediment concentration and arsenic concentration of the reservoir both declined along the stream. Sediment concentration in wet season is larger than that in dry season, and sediment concentration in front of the dam in the surface is obviously smaller than that in the bottom; while arsenic concentration in wet season is smaller than that in dry season, and when the arsenic concentration in tributary is large, shore pollution zone will be formed. Arsenic concentration in front of the dam shows a significant increase from the surface layer to the bottom layer.
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  Climate Characteristics and Changes of Winter Snowfall in the Middle and Lower Reaches of the Yangtze River from 1961 to 2017

  DONG Heng-xin, ZHANG Zi-lu, ZHANG Xin-yu, ZENG Yan, ZHU Xiao-chen, QIU Xin-fa, ZHU Si-yuan, MI Xin

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 12-17,23. https://doi.org/10.11988/ckyyb.20200110

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  Climate change results in frequent local meteorological disasters, and in particular, snowfall events cause severe damage to transportation, electricity, and agriculture. On the basis of data of 118 conventional meteorological stations in the middle and lower reaches of the Yangtze River from 1961 to 2017, the characteristics of winter snowfall in the study area are examined by using climate tendency, cumulative anomaly, non-parametric M-K trend analysis and REOF (Rotated Empirical Orthogonal Function). Results unveil that snowfall in most areas of the middle and lower reaches of the Yangtze River indicates a decreasing trend with age. The number of snowfall days in winter changed abruptly in 1981 from increasing trend to declining trend. The results of REOF suggest that the snowfall and snowfall change are mainly concentrated in the northwest area of the middle and lower reaches of Yangtze River. The research findings offer technical support for preventing snowfall disasters.
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  Variation Characteristics of Runoff Coefficient of the Hinterland of Lixia River in Jiangsu Province

  SUN Zheng-lan, WANG Yong-dong, CHEN Jing, WANG Jiang

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 18-23. https://doi.org/10.11988/ckyyb.20191354

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  In the hope of understanding the water cycle and ecosystem features of Lixia River in Jiangsu Province, we examined the trend and variation regularities of runoff coefficient over years (1961-2018) based on precipitation and runoff data via accumulated anomaly analysis, correlation analysis, Mann-Kendall test, moving-t test, as well as Morlet wavelet analysis. Results revealed that: 1) Runoff coefficient changed with precipitation, and the change was consistent with primary and secondary cycles; but the unevenness of annual and interannual runoff is much greater than that of precipitation. The annual variation of runoff coefficient is not only related to the annual distribution of precipitation, but also closely related to regional geomorphological characteristics and agricultural production. 2) In recent years, precipitation has not increased significantly, while runoff coefficient changed abruptly in 1966 and 1982. In the process of changing with precipitation, runoff coefficient increased the most in 1980s, and the smallest after 2012. The change of runoff coefficient in different periods reflects the change of water cycle and the adjustment and balance ability of natural ecosystem. The research findings are of practical significance for regional flood control and drought relief as well as the development and utilization of water resources.
ENGINEERING SAFETY AND DISASTER PREVENTION
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  Risk Assessment for Operational Safety of Water Diversion Projects Based on Failure Mode and Effects Analysis

  LI Hui-min, JI Li, LI Feng, WANG Lun-yan, MA Ying

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 24-31. https://doi.org/10.11988/ckyyb.20200138

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  The conveyance channel of water diversion project is featured with long distance and complicated geological environment. In order to standardize the safety of project operation, it is necessary to evaluate potential risks and propose corresponding measures. Six failure modes are summarized: structural cracks, poor water delivery in ice period, instability of canal slope, material aging, abnormal leakage, and foundation defects. On the basis of FMEA (Failure Mode & Effects Analysis), a multi-granularity linguistic evaluation method that can be converted to interval intuitionistic fuzzy numbers is adopted to evaluate the severity (S), difficulty of detection (D), and occurrence (O) of the six failure modes. Interval intuitionistic fuzzy entropy is used to calculate risk factor weights. And finally a ranking model for each failure mode is built based on the TODIM (Tomada de Deciso Interativa Multicritérion) method. The final ranking result suggests that the risk of abnormal leakage is the largest, and the risk of poor water delivery in ice period is the smallest. The feasibility and validity of the calculation results are verified by comparison with the ranking results of traditional RPN and TOPSIS methods. The TODIM-FMEA risk assessment model offers a new idea for the risk assessment of water diversion projects.
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  A Comprehensive Evaluation Method for Dam Service Behavior Based on Bayesian Framework

  ZHANG Tao, SU Huai-zhi

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 32-38,45. https://doi.org/10.11988/ckyyb.20191435

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  The comprehensive evaluation of dam service behavior is of great significance to the safe operation of water control project. Current evaluation models are too dependent on expert experience, hence lack of objectivity, or limited by data mining in the absence of professional knowledge. An assessment method for dam performance is presented based on Bayesian network combining the subjective experience of experts with the objective measured data. The relations among influencing factors are clarified effectively by determining the network structure according to naive Bayesian classification and BIC score optimization. Furthermore, the prior distribution and conditional distribution are solved by using the theory of fuzzy comprehensive evaluation and the method of entropy weight. The failure probability involving both subjective experience and objective data is obtained via reasoning through Bayesian estimation. The service behavior of dam thus can be assessed and rated according to the rating of failure probability. A multi-index evaluation model for the service behavior of dam under the Bayesian framework is established with the time series of 14 influencing factors of a concrete dam as a cases study. The safe service behavior of the dam is rated. The validity of the method is proved by analyzing the evaluation results from subjective and objective, holistic and partial, as well as static and dynamic perspectives.
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  Spatial and Temporal Clustering Model of Concrete Arch Dam Deformation Data Based on Panel Data Analysis Method

  HU Tian-yi

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 39-45. https://doi.org/10.11988/ckyyb.20191217

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  Deformation data directly characterizes the safety condition of concrete arch dam. However, traditional deformation analysis targets only a single monitoring point. The similarity and association of deformation between different monitoring points still need to be excavated. In this research, a clustering analysis model for the deformation of high concrete arch dam is established based on panel data analysis method. The deformation sequences of concrete arch dam are analyzed at first, and the similarities of temporal and spatial deformation sequences are extracted based on the clustering method in space-time data mining. Three similarity indicators, namely, absolute distance, incremental distance, and growth distance of the deformation sequences at different time sections and different positions as well as their corresponding comprehensive distance indicators are proposed to quantify the similarity between temporal and spatial sequences. Moreover, Ward's junction clustering method is adopted to divide the time periods and the corresponding deformation areas. Practical engineering case study verifies the rationality of the selected similarity indicators and the effectiveness of the model.
HYDRAULICS
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  Abnormal Water Waves in Large-scale Conveyance Aqueduct: Causes and Countermeasures

  WANG Cai-huan, WANG Wei, HOU Dong-mei, WANG Zhi-xin, TIAN Feng-yuan

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 46-52. https://doi.org/10.11988/ckyyb.20200406

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  Abnormal large water waves with amplitudes up to 1.0 meter were observed under large discharge conditions in the Shierlihe aqueduct, part of the main canal of the South-to-North Water Diversion Middle Route Project. Due to the large water waves, the water conveyance capability of the main canal is affected, and associated structures are endangered. Hydraulic model tests were carried out to reproduce the abnormal water waves observed in the prototype aqueduct. Result reveals that the alternative change of inflow between the left and right ducts induced by Karman vortex street at the exit of the aqueduct is the major cause of abnormal water waves with large amplitudes in the aqueduct. By eliminating the wave source, i.e., Karman vortex street at the exit pier of the aqueduct and preventing the alternative change of inflow conditions in the left and right ducts at the aqueduct entrance, engineering measures and scheduled gate operation scheme are proposed to reduce the abnormal water waves in the aqueduct. It is found that the maximum wave amplitudes in the aqueduct can be reduced to below 0.2 meter under all discharge conditions. The proposed gate operation strategy has been applied to the prototype project, and the abnormal water waves in the aqueduct and canal are well controlled.
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  Opening and Closing Force of Radial Gate Influenced by Flow-induced Vibration

  LIU Peng, XU Guo-bin, YANG Jiao-jiao

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 53-58. https://doi.org/10.11988/ckyyb.20191397

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  Fluid-solid coupling analysis was conducted to investigate the influence of flow-induced vibration on the opening and closing force of radial gate with Maerdang project as a case study. Results revealed that the vibration force caused by gate vibration and the change of friction coefficient and friction arm caused by gate vibration displacement were major factors affecting the opening and closing force. On this basis, the vibration system of the gate is simplified. The formula of gate panel pressure varying with vibration displacement was also derived based on the vibration theory. The method was applied to the calculation of the opening and closing force of radial gate in consideration of the influence on friction coefficient and friction arm. Comparison with numerical simulation results demonstrates the improved calculation formula of the opening and closing force enhances the calculation accuracy than specification formula does. The research finding provides a basis for the selection of hoist capacity in practice.
ROCK-SOIL ENGINEERING
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  Stability Analysis of Secondary Excavation on Tuff High Slope and Optimization of Protection Technology

  FENG Zhong-ju, JIANG Guan, WANG Fu-chun, LONG Hou-sheng, FAN Zhe, HU Tie-gang

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 59-66. https://doi.org/10.11988/ckyyb.20191368

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  Tuff is softened and disintegrated when contacts with water, resulting in remarkable strength decline. Tuff high slope in construction are prone to cracking and slippery collapses. In order to solve the stability problem in the secondary excavation of the high tuff slope of Huizhou-Shenzhen highway Project, we analyzed the instability mechanism and influencing factors in the excavation of high tuff slope using finite element software, and put forward reinforcement technology for the secondary excavation. Moreover, we assessed the result of reinforcement by joint monitoring of slope displacement and support structure stress. Results unveiled that the excavation-induced unloading deformation was the major cause, and rainfall the inducing factor of the first shallow slide of grade-3 slope to grade-5 slope; the absence of timely support was the major cause, and still rainfall the inducing factor of the secondary collapse after the square cutting and unloading. We propose to apply concrete retaining wall and anchor beam in the collapsed area of grade-3 slope. After the reinforcement construction, the maximum horizontal displacement was 0.28 mm/d at grade-4 platform, averaging only 0.02 mm/d, and the stress of support structure stayed within the early-warning range with no obvious fluctuation, indicating an effective reinforcement.
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  Experimental Study on Creep Characteristics of Sandstone under Step Loading and Unloading

  ZHAO Li-cai

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 67-72,79. https://doi.org/10.11988/ckyyb.20191419

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  Triaxial loading and unloading creep tests were carried out on RLW-2000 rheological testing machine to study the creep mechanical properties of sandstone. The instantaneous elastic, instantaneous plastic, viscoelastic and viscoplastic strains of sandstone under different deviatoric stress levels were obtained via viscoelastic plastic strain separation, and the variation rules of viscoelastic plastic strain and elastic modulus were examined. The experimental results demonstrate that: 1) the creep of rock is a viscoelastic plastic deformation process consisting stages of instantaneous deformation, decaying creep and stable creep during loading, as well as instantaneous and lagged deformation recovery during unloading. (2) The difference between initial creep rate and steady creep rate of sandstone could reach two orders of magnitude, both growing with the climb of deviatoric stress level. (3) The isochronal deviatoric stress-strain relation of sandstone shows obvious nonlinear characteristics, and the curve gradually deviates from the strain axis. The creep deformation of rock has both linear and nonlinear characteristics. The research findings could offer reference for the study of long-term stability of underground engineering.
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  Influence of Sulfate Content on Compressive Strength of Solidified Saline Soil with All-solid Waste Materials

  GONG Jing-wei, WANG Liang, CI Jun, FU Ying-jie, LIN Hao-ran

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 73-79. https://doi.org/10.11988/ckyyb.20191344

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  The aim of this study is to investigate the influence of sulfate content on compressive strength and microstructure of solidified saline soil with solid waste materials. The impact of salinity on compressive strength of solidified saline soil was examined from the viewpoint of pozzolanic products and quantities via compaction test and unconfined compressive strength test in association with scanning electron microscopy (SEM), energy dispersive spectrom(EDS), X-ray diffraction (XRD) and thermogravimetric analysis. Results demonstrated that when the content of sulfate was lower than 2.7%, the compressive strength of solidified saline soil increased at first and then decreased with the increase of salinity. When salinity was 1.8%, compressive strength reached peak value. The major pozzolanic products of solidified saline soil are C-S-H and AFt. When the content of sulfate augmented from 0.3% to 1.8%, the reaction products increased obviously, resulting in the rising of compressive strength of solidified soil; however, when the content of sulfate increased from 1.8% to 2.7%, the internal pores of the specimen were completely filled by expansive AFt, giving rise to cracks and the decline of compressive strength. The research findings laid a foundation for the engineering application of solidified sulphate saline soil.
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  An Improvement on Calculating Active Earth Pressure of Cohesive Soil behind Retaining Structure

  JIANG Jun-feng, ZHAO Qi-hua, YU Xiao, WANG Yi

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 80-85,91. https://doi.org/10.11988/ckyyb.20191313

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  The classical Rankine's earth pressure theory, despite its convenience, neglects the influence of soil's friction angle and retaining wall's inclination on soil pressure, while Coulomb's earth pressure theory does not consider the cohesion of soil. To better reflect the change law of earth pressure behind retaining wall, a formula is derived based on Coulomb's earth pressure theory for cohesive soil. The friction angle between soil and wall, the height of tensile crack on the top of retaining wall, the displacement state of retaining wall, and the broken-line sliding surface are considered in the method. The effectiveness of the method for cohesive soil is verified by comparing theoretical calculations with model measurements. Compared with other theories, the proposed method is simpler and the calculated result is closer to measurements. The present formula can be simplified to Coulomb's formula of active earth pressure when cohesion is zero.
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  Utilization of Discards from Cement-modified Soil-cutting of Slope

  ZHANG Heng-sheng, GONG Bi-wei, WEN Song-lin, CAO Xin-jian, WANG Wei, HU Bo

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 86-91. https://doi.org/10.11988/ckyyb.20191480

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  Large amounts of discards are generated from soil-cutting of slope in replacing expansive soil with cement-modified soil in treatment projects for expansive soil slope. Directly abandoning these discards will lead to waste and also will occupy land. To recycle such discards, we collected samples of moderately expansive modified soil (cement content 6%) and weakly expansive modified soil (cement content 3%) discarded from the filling site of the middle route of South-to-North Water Transfer Project. We further investigated the feasibility of reusing modified soil discards as fillers by testing their compactness, strength, expansion, shrinkage, and permeability features. Results demonstrated that the modified soil discards meet the resuirements of fillers in terms of expansion, physical characteristics, strength and deformation properties except from larger compaction function, thus could be reused as modified fillers.
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  Experimental Study on Bearing Behavior and Influencing Factors of a Special-shaped Cast-in-place Pile in Karst Area

  ZHANG Fu-you, FENG Jian-xue, LU Zhi-yu, YANG Ji-ming, MEI Guo-xiong

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 92-99. https://doi.org/10.11988/ckyyb.20191281

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  The leakage of slurry during cast-in-place pile construction in karst area often results in poor quality and insufficient bearing capacity of pile. In view of the wide distribution of connected channels in the karst area, we propose a new type of cast-in-place pile in dendritic shape with bags socketed into the karst caves. We probed into the feasibility of such bag-pile by designing bedrock model for pile-forming test, and on this basis, we further investigated the bearing characteristics and influencing factors of bag-pile via eight groups of static load model tests. Results demonstrated good quality of cast-in-place bag-pile. The ultimate bearing capacity of the proposed bag-pile is about 1.5 times that of ordinary pile of equal diameter, and the settlement of bag-pile is much smaller than that of ordinary pile of equal diameter under the same load conditions. Besides, the axial force of bag-pile body obviously reduced at the upper and lower interfaces of the dendritic structure which enhanced the side friction performance of the pile. Load transfer is of obvious time effect. The bearing capacity of bag-pile is positively correlated with the length, number, and buried depth of the dendritic structure.
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  Energy Mechanism of Displacement's Abrupt Change Caused by Blasting Load in Jointed Rock Mass Slopes

  DAI Jin-hao, YANG Jian-hua, HU Ying-guo, YAO Chi

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 100-106. https://doi.org/10.11988/ckyyb.20191239

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  Blasting load is a major dynamic disturbance factor of rock slope excavation in water conservancy and hydropower projects. Displacement often changes abruptly in the process of blasting excavation. In association with measured displacement data of a jointed rock slope, we investigated into the mechanism and variation of the abrupt change of displacement of the jointed rock mass slope induced by blasting load via numerical simulation. We also probed into the influence of blasting parameters on the abrupt changes of displacement. Results indicate that the abrupt change of displacement of the jointed rock mass is caused by the sudden release of strain energy accumulated in the rock mass during the boosting load. The amount of displacement's abrupt change is determined by both the peak of accumulated strain energy and the release rate of strain energy. The larger the peak value of blasting load and the longer the boosting time, the more strain energy is accumulated. The shorter the depressurization time, the faster the strain energy release rate would be, resulting in a larger abrupt change of displacement.
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  Permeability and Strength Characteristics of Tamusu Deep Clay under Confining Pressure and Osmotic Pressure

  HU Qing-bo, LIANG Hai-an, YANG Ting, LIU Xiao-dong, WANG Yu, ZHANG Long-peng

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 107-113. https://doi.org/10.11988/ckyyb.20191202

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  Deep rock mass is mostly in complex stress field and seepage field. Studying the characteristics of clay rock under confining pressure and osmotic pressure is of great significance for the design and excavation of highly radioactive waste repository. In this paper, we examined the strength and permeability of Tamusu clay via permeability evolution test under loading-unloading confining pressure and full stress-strain permeability test under different confining pressures and osmotic pressures. Having compared the applicability of different strength criteria in characterizing the strength characteristics of clay, we proposed a strength criterion for clay rock in consideration of confining pressure and osmotic pressure by introducing a strengthening coefficient of confining pressure and a weakening coefficient of osmotic pressure. Results demonstrate that the permeability of Tamusu deep clay is in the order of 10^-20 m², and the relationship between permeability and confining pressure conforms to exponential function in loading stage while power function in unloading stage. In the whole stress-strain process, the strengthening coefficient of confining pressure is greater than the weakening coefficient of osmotic pressure. When working together, confining pressure has a dominant influence on the strength of Tamusu clay. The strength criterion considering the interaction of confining pressure and osmotic pressure could better reflect the strength characteristics of the Tamusu clay rock and overcome the limits of Mohr-Coulomb and Hoek-Brown strength criterion which only consider the confining pressure variation.
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  Large-scale Plate Loading Test and Deformation Characteristics of Solid Waste

  CUI Meng-lin, LI Huan-bing, HU Sheng-gang, ZHANG Qi-pei

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 114-118. https://doi.org/10.11988/ckyyb.20191442

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  Composed of complex materials, solid waste is strongly variable in spatial and temporal scales. Obtaining the bearing capacity accurately and deformation characteristic of solid waste is of pivotal significance for the subsequent large-scale filling of earthwork for mountain landscaping and safe operation. However, accurately determining the bearing capacity and deformation characteristic of refuse soil is quite challenging. Large-size plate loading test becomes a good choice. We examined the engineering properties of solid waste soil layers in a garbage dump in Wuhan via large-scale plate load test with the loading plate size of 4 m×4 m. By monitoring and analyzing the changes in settlements below plate, soil subsidence in the peripheral of plate, layered settlements below plate, as well as deep horizontal displacement in the peripheral of plate, we obtained the ultimate bearing capacity and overall deformation characteristics of the solid waste. Test results revealed large deformation of the solid waste layer under the action of load, with an effect reaching 10 meters in depth, which is manifested as the punching and shear failure mode. The test results provide suggestions for the implementation of similar landfill reconstruction projects, and also reference for renovation projects of waste landfill in future.
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  Preliminary Risk Assessment of Shield Tunnelling-incluced Damage to Adjacent Buildings

  ZHANG Yun-qiang, CAO Wen-gui, ZHOU Su-hua

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 119-124,130. https://doi.org/10.11988/ckyyb.20191132

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  Tunnel excavation will cause surface and subsurface settlement. Studying the law of formation movement is of great significance to determine the risk level of buildings and protect adjacent buildings.Firstly,the calculation model of risk zone is obtained based on Peck's formula considering the settlement and inclination of buildings caused by subsurface settlement trough. Secondly, the influence rules of tunnel diameter D, foundation depth d and ground loss ratio V_L on the size of the building risk zone are analyzed, and the boundary values (C/D)₀ and (x/D)₀ of risk zone are deduced. Finally, according to different risk control levels, a preliminary risk assessment method for adjacent buildings during tunnel excavation is proposed, and the risk zone is divided into four zones. The risk zoning method proposed in this paper is simple and highly-efficient as only four parameters are needed: tunnel diameter D, ground loss ratio V_L, tunnel's buried depth Z and coefficient i of settlement trough width. The method also reflects the influence of different parameters on the change of risk zone. The research findings provide reference for preliminary judgment and risk prediction of the impact of tunnel excavation on adjacent buildings' safety.
HYDRAULIC STRUCTURE AND MATERIAL
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  Chloride Ion Diffusion in Aeolian Sand Concrete under Salt Freezing

  DONG Wei, XIAO Yang, SU Ying

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 125-130. https://doi.org/10.11988/ckyyb.20191005

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  Concrete specimens with different aeolian sand content (mass substitution rate 0%, 25%, 50%, 75%, 100%) were prepared to conduct experimental research on the effect of aeolian sand content on chloride ion diffusion in concrete under cyclic freezing and thawing of chloride salt. The free chloride ion concentration and total chloride ion concentration in concrete with different aeolian sand contents under salt freezing environment were determined by chemical analysis method, and the relative chloride ion binding coefficient and chloride ion diffusion coefficient of aeolian sand concrete were calculated. Results revealed that the free chloride ion concentration declined at first but then increased with the augment of aeolian sand content, while gradually increased with the proceeding of cyclic freezing and thawing. The binding performance of aeolian sand concrete showed good Langumir nonlinear adsorption and had no direct relationship with freeze-thaw cycles. When the content of aeolian sand was 25%, the relative chloride ion binding coefficient was the smallest. The chloride ion diffusion coefficient hit the lowest value under the same freeze-thaw cycles. Cyclic freezing and thawing had little effect on the diffusion rate of chloride ion in concrete with large content of aeolian sand. The diffusion coefficient of chloride ion of the test group with 100% aeolian sand content decreased with the proceeding of freeze-thaw cycles, displaying good resistance to chloride ion erosion. Proper amount of aeolian sand could better resist chloride ion invasion, and a large amount of aeolian sand could boost the frost resistance of concrete under chloride salt erosion.
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  Design Method for Gradation of Cement-stabilized Recycled Coarse Aggregate

  YANG Bao-shuai, GUAN Bo-wen, SUN Zeng-zhi, XUE Cheng, DENG Chen-ji, CHEN Yu-hong

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 131-136. https://doi.org/10.11988/ckyyb.20191386

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  In some local specifications in China, the gradation of cement-stabilized recycled coarse aggregate distributes in a wide range. In view of this, in the light of the particles interference theory and the maximum density curve theory, we analyze the proportion of recycled coarse aggregate and natural fine aggregate, and summarize the reasonable range of the gradation of skeleton-dense cement-stabilized recycled coarse aggregate. We also compare the compaction characteristic and compressive performance with those recommended in local specifications. Results reveal that when the content ratio of natural fine aggregate to recycled coarse aggregate is 30%-60%, a tightly packed framework structure is formed between coarse aggregates, giving rise to large internal friction angle; the natural fine aggregate and cement hydration product are fully filled, resulting in large cohesive force and skeleton-dense cement stabilized recycled coarse aggregate. The unconfined compressive strength at 7-d age is higher than 3.0 MPa. When cement dosage is 5%, the compaction characteristics and compressive performance of the design graded cement stabilized recycled coarse aggregate are better than those recommended by local specification.
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  Experimental Study on Anti-crack Performance of Wear Resistant Concrete C60

  LI Shuang-xi, CUI Bo-tao, WANG Cheng-xiang, MENG Yuan-yuan

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 137-142. https://doi.org/10.11988/ckyyb.20191321

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  To offer superior mix proportion scheme for wear resistant concrete, we prepared C60 anti-wear concrete specimens by adding merely or mixed fly ash, slag powder and silica fume, and tested the crack resistance of the specimens using the plane method and the ring method. Research results demonstrate that: 1) when the water-to-binder ratio remains unchanged, the incorporation of fly ash or slag powder reduces the volumetric shrinkage deformation of concrete and prolongs the cracking time of concrete; 2) with the increase of fly ash or slag powder, the effect of restraining concrete cracking tends to be obvious; 3) the incorporation of silica fume evidently promotes the cracking of concrete, and such cracking gets more severe when the amount of silica fume increases, and the cracking of concrete tends to be serious; 4) the synergistic complementary effect formed by the fusion of silica fume and fly ash or slag powder reduces the cracking of C60 anti-wear concrete. The anti-cracking effect is optimal when 15% fly ash and 7% silica fume are compounded.
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  Rapid Monitoring of Landslide Stability Based on Multidimensional Criterion and Vector Database

  DUAN Gong-hao, NIU Rui-qing, PENG Ling, LI Ya-nan

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 143-148,154. https://doi.org/10.11988/ckyyb.20191416

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  In an attempt to monitor the trend of landside stability rapidly and effectively, 976 landslides along the Yangtze River in the Three Gorges Reservoir Area were selected as the objects of study. Eight categories of factors which have greatest impacts on the stability of landslide were determined as basic indicators. The features of attribute data and spatial data were mined using the algorithm of association rules to build a multidimensional criterion. Furthermore, the algorithm flow was established with vector data as input stream, and the multidimensional criterion was processed by using spatial function. The stability conditions of 376 landslides were predicted using the proposed method. Results demonstrated that hazards are more likely to occur when landslides are located in soft-and-hard intercalated rock strata and [0.1, 117.90) m from rivers with a slope gradient ranging from 15° to 45°. The proposed estimation method is of good adaptability with a comprehensive precision reaching 82.45%. The method makes rapid monitoring possible by generating zoning map of landslide stability through integrating vector data input and stability evaluation.
INFORMATION TECHNOLOGY APPLICATION
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  Waveform Retracking Algorithm for Inland Lake Based on Waveform Decontamination Technology

  HUANG Zheng-kai, WANG Hai-hong, WEN Zhi-qiang, CHEN Zhi-ping

  Journal of Changjiang River Scientific Research Institute. 2021, 38(2): 149-154. https://doi.org/10.11988/ckyyb.20191367

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  Satellite altimetry has developed into a mature marine observation technique. But the precision of observation in inland waters needs to be improved, the key of which is to eliminate the effects of land pollution in radar echo. On the basis of the coastal waveform decontamination technology, we propose an improved waveform retracking algorithm for the characteristics of inland waters to eliminate the abnormal peaks caused by land pollution in altimeter waveform. Subsequently, the decontaminated waveform is used for retracking correction to improve the precision of satellite altimetry in inland waters. The measured water level data of several lakes in Qinghai-Tibet Plateau is used for precision testing. The experimental results show that the waveform decontamination technology can eliminate the abnormal peaks in the offshore area, then retrackers are used for the corrected waveform, and the average precision reaches 15.8 centimeter, which is 14% and 27% higher than the accuracy of ICE-1 algorithm and thresholoding method. The results demonstrate that the algorithm can effectively detect and eliminate the abnormal peak of radar waveform and improve the observation accuracy of altimetry data in inland waters.