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1.
The stability of mine waste dump is very important for an economic and safety point of view. The biological method is the
most popular and eco-friendly approach to stabilize the mine waste dump in the long term. Trees outclass grasses and shrubs
for long term stability as the roots of trees are stronger and penetrate deeper. Their roots bind the dump material and form
a composite material having high shear strength. The mechanics of stabilization by tress have yet not been fully understood.
Moreover, one always refers to biological stabilization of slope qualitatively rather than quantitatively. A numerical simulation
tool has been used in the present paper to assess the increased factor of safety of a vegetated dump slope. The Sisam tree
was chosen for the present study as it is commonly available in northern India, needs little care and has high economic value.
The increased shear strength of the dump mass having tree roots was calculated by shear box test. The tree roots occupy large
space, hence, a large size shear box (1.5 m × 1.5 m × 0.75 m) has specifically been designed and fabricated for determining
the shear strength of dump root matrix. A small size shear box (0.30 m × 0.30 m × 0.15 m) has also been designed and fabricated
to determine the increased shear strength due to small trees. It was observed that the Sisam tree of even moderate size binds
the upper layers of mine dump and improve the factor of safety substantially. It was also observed that the stability of dump
slope improves with time (i.e. size of tree). 相似文献
2.
在分析矿区地形地貌、地层岩性、水文地质条件和影响排土场稳定因素的基础上,结合区内2#排场的监测资料,采用FLAC3D模拟软件和刚体极限平衡法中的毕肖普条分法,对排土场边坡变形、破坏的主要影响因素进行了分析,揭示了其滑坡机理;对3#排土场的稳定性做出预测,认为排土场边坡变形破坏模式是上部排弃物沿圆弧滑面剪切滑移与下部沿粉土、粉质粘土平面滑移的圆弧—平面组合滑移形式;基底土层的内摩擦角对排土场允许排高较为敏感,是决定允许排高的内在因素,基底粉质粘土的极限承载力是决定排土场允许排高的外在因素;基底土体极限承载力所决定的排土场的允许排高为90.60~91.60m。提出了填沟压脚、降低第一排台阶高度和基底排水等措施来满足排土场边坡稳定的要求。 相似文献
3.
Rajesh Rai S. Kalita T. Gupta B. K Shrivastva 《Geotechnical and Geological Engineering》2012,30(6):1397-1404
The stability of mine waste dump is of paramount importance from economic and safety point of view. The present paper deals with the stability analysis of an internal dragline dump of an opencast coal mine by finite element method to classify input parameters in terms of sensitivity. Sensitivity analysis has been carried out for geometrical and geotechnical parameters of dump slope. It has been concluded from the results that ??friction angle?? is a more sensitive parameter as compared to the cohesion of dump material. The geometrical parameters of ??slope angle?? and ??height of dragline dump?? are classified as very high sensitive. The ??height of main dump?? could be classified as least sensitive, whereas, ??gradient of the seam?? and ??thickness of coal rib?? as medium sensitive parameters. 相似文献
4.
基于遍布节理模型的边坡稳定性强度折减法分析 总被引:10,自引:4,他引:6
采用非线性数值分析方法分析边坡稳定性问题时,强度折减法因其具有较多的优点而得到广泛应用。岩土体一般采用理想弹塑性模型,屈服准则为广义米赛斯准则。对于密集节理岩质边坡稳定性问题,采用遍布节理模型可同时考虑岩块和节理属性,更符合岩体状态及工程实际,认为岩体经强度折减后潜在破坏可能首先出现在岩体中或沿节理面或二者同时破坏。结合工程实例,基于遍布节理模型的强度折减法计算结果表明,潜在滑移面为折线型滑面,下部潜在滑移面倾角与节理面等效内摩擦角基本一致,上部潜在滑移面与岩体拉破坏相关;节理倾角与边坡安全系数、潜在滑动范围密切相关,陡倾角节理对边坡稳定性影响较小。通过对边坡失稳判据和边坡滑移面确定的探讨,认为以力或位移不收敛作为边坡失稳判据是适当的,而边坡的剪应变速率物理意义十分明确,适于作为边坡潜在滑移面的确定依据。 相似文献
5.
Although most cut slopes in Ohio consist of inter-layered, sub-horizontal units of hard and soft sedimentary rocks (sandstone, limestone, dolostone, shale, claystone, mudstone), slopes consisting of relatively thick hard rock units are not uncommon. Design of stable cut slopes in hard rock units needs to consider rock mass strength and orientation of discontinuities with respect to slope face. Results of kinematic stability analyses show that hard-rock cut slopes are less likely to have conventional plane and wedge failures, caused by unfavorable orientation of discontinuities. The main cause of failure is identified to be the undercutting-induced toppling, which is not amenable to traditional kinematic or rock mass strength-based analyses. Therefore, to recommend a suitable slope angle, numerical models, using UDEC software, were employed to study how various slope angles affect the process of undercutting-induced toppling failures. The UDEC models showed a slope angle of 45° (1H:1 V) to be the most stable angle. However, a 63° (0.5H:1 V) slope angle can significantly reduce the potential for such failures and is therefore more appropriate than the widely used angle of 76° (0.25H:1 V). 相似文献
6.
极限承载力一直是采矿、岩土等领域关注的难点和热点问题,严重影响着边坡与邻坡建(构)筑物的安全稳定性。基于极限分析上限定理,考虑边坡滑动溢出位置不确定性影响,建立3种模式的非均质成层边坡刚性多滑块破坏机制,推导出边坡极限承载力上限解,并采用序列二次规划算法(SQP)求其最优值。以三岔露天矿北帮为工程背景,通过与数值计算结果对比分析,验证本文方法的有效性,进而开展不同坡角和排土场距坡肩距离影响分析。结果表明:(1)本文方法计算结果与数值计算结果吻合度较好,表明本文方法边坡极限承载力上限解合理有效;(2)边坡极限承载力与坡角大小呈线性负相关,与排土场距坡肩距离呈线性正相关,相比于排土场距坡肩距离而言,坡角对边坡承载力影响更为敏感;(3)坡角变化对边坡失稳模式影响较大,而排土场距坡肩距离的变化对边坡失稳模式影响不明显;(4)坡角和排土场距坡肩距离均对滑裂面起始位置和溢出位置有影响,滑裂面起始位置受排土场距坡肩距离影响较大而受坡角影响较小,滑裂面溢出位置受坡角影响较大而受排土场距坡肩距离影响较小。相关研究成果有望为边坡及邻坡基础设计提供理论支持。 相似文献
7.
Effects of monsoonal rainfall on waste dump stability and respective geo-environmental issues: a case study 总被引:1,自引:1,他引:0
The stability of mine waste dumps is of critical importance and an issue, the mining industry of Goa, India is continually
facing. The State of Goa receives high rainfall of around 3,000 mm annually. This heavy monsoonal rainfall is often believed
to be the cause of dump slope instability. In light of several dump collapses encountered in the State and their damaging
effects on both mine operations and local geo-environmental conditions, this paper examines their stability considering various
geotechnical factors and the downstream environmental effects of a slope failure. The mechanical properties of dump waste
material are reported at different compaction levels. The effect of these properties and changes in pore-water pressure are
specifically examined using limit equilibrium analysis. An empirical formula is developed relating dump height, material mechanical
parameters and pore-water pressure to the factor of safety of the slope. It was found that the level of compaction experienced
by the material had a significant effect on the factor of safety. 相似文献
8.
宽级配废石的一坡到底的高台阶排土场具有明显的粒径分级特征,传统稳定性分析方法将其简化为多层各向同性的均质土体,却实质性忽略了排土场粗粒土各粒组分布的不均匀性和随机性,导致难以获得其边坡稳定性的合理结论。依托江西某铜矿高台阶排土场,借助自编元胞自动机程序EPOHHM,采用5组窄级配粗粒土表征了高台阶排土场的粒径分级现象,模拟了各粒组散体分布的不均匀性和随机性,分析了不同工况下排土场的位移场及塑性状态,系统地探讨了不同堆排模式下排土场边坡的安全稳定性,提出了一种宽级配废石的高台阶排土场稳定性的精细化分析方法。研究结果表明,排土场发生“拉-剪”破坏;土体中上部有圆弧形滑坡趋势,下部变形表现为沉降,顶部平台产生拉剪裂缝。仅考虑散体力学强度时,底部粗颗粒( 100 mm)含量的增加对排土场起显著的稳固作用,“单台阶全段高”的堆排模式比“全覆盖式多台阶”更有利于宽级配废石的高排土场安全稳定。研究成果将为保证明显粒径分级的排土场的长期安全稳定提供指导,也为今后分析此类工程问题提供借鉴。 相似文献
9.
Earthquake effects are commonly considered in the stability analysis of rock slopes and other earth structures. The standard approach is often based on the conventional limit equilibrium method using equivalent Mohr–Coulomb strength parameters (c and ?) in a slip circle slope stability analysis. The purpose of this paper is to apply the finite element upper and lower bound techniques to this problem with the aim of providing seismic stability charts for rock slopes. Within the limit analysis framework, the pseudo-static method is employed by assuming a range of the seismic coefficients. Based on the latest version of Hoek–Brown failure criterion, seismic rock slope stability charts have been produced. These chart solutions bound the true stability numbers within ±9% or better and are suited to isotropic and homogeneous intact rock or heavily jointed rock masses. A comparison of the stability numbers obtained by bounding methods and the limit equilibrium method has been performed where the later was found to predict unconservative factors of safety for steeper slopes. It was also observed that the stability numbers may increase depending on the material parameters in the Hoek–Brown model. This phenomenon has been further investigated in the paper. 相似文献
10.
11.
Tushar Gupta Rajesh Rai Ashok Jaiswal B. K. Shrivastva 《Geotechnical and Geological Engineering》2014,32(3):705-712
The present paper discusses the impact of the geometrical parameters of the coal rib and the mine dump on the stability of the coal rib. The geometrical parameters such as the slope angle, the height of dragline dump, the height of main dump, the gradient of seam and the thickness of coal rib have been considered as input to the numerical model for the stability analysis of the coal rib. Sensitivity analysis has been performed based on the results of the analysis in term of factor of safety of the coal rib. The input parameters have been classified in terms of significance (i.e. very high significance, high significance medium significance and low significance). The factor of safety is more influenced by highly significant parameters. The height and the slope angle of dragline dump and the thickness of the coal rib are highly significant parameters for the stability of the coal rib. The gradient of the seam is a medium significant parameter whereas, height of main dump and the number of dragline cut dump are low significant parameters for stability of coal rib. 相似文献
12.
Stabilization of rock slopes using geogrid boxes 总被引:1,自引:0,他引:1
The effect of using geogrid boxes as a new approach for reinforcement of rock slopes (with a case study at rock slope perched along km 11?+?060 of Mianeh–Ardabil railway track) was investigated. The limit equilibrium (LE) and finite element (FE) analysis were conducted to predict the response of the slope to a broad range of possible conditions, namely dry, half saturated, and saturated states as well as static and quasi-static conditions. The objective is to contribute towards the establishment of best practice in the design and construction of engineered slopes. Various design considerations were developed to investigate the effect of varying height and width of geogrid boxes on the factor of safety. The LE and FE based methods were compared based on the factor of safety. The results demonstrated that considering the design consideration, installing geogrids yields increasing the stability of rock slope. 相似文献
13.
安全系数的计算和临界滑动面的确定是边坡稳定性分析的两个组成部分,强度折减法可以得到合理的安全系数,但却不能准确刻画临界滑动面的位置。基于对滑动现象的认识,提出了一种基于位移场分析的临界滑动面确定方法,认为当边坡处于临界状态时,其潜在滑动面附近的位移等值线最为密集,潜在滑动面上的点往往是在深度方向上沿垂直滑面的位移变化率达到最大值的位置。将本文方法与Spencer法、岩质边坡模型试验进行了对比,验证了该方法在曲线和折线滑动面搜索方面的适用性和可靠性。同时,探讨了单元形状、疏密程度、离散点间距等因素对滑动面的影响。 相似文献
14.
基于离散元的强度折减法分析岩质边坡稳定性 总被引:26,自引:0,他引:26
将通用离散元UDEC与强度折减法结合,对含多结构面的岩质边坡的稳定性进行了分析。通过对节理岩质边坡的UDEC模型中的可变形块体和节理单元的强度参数进行折减,使模型不能再达到平衡状态,此时的折减系数就是边坡的安全系数,另外,由对应的边坡块体的速度矢量可以确定滑动面和边坡的破坏形态。通过与传统的条分法的结果比较,表明基于UDEC的强度折减法是一种可靠、有效的方法,为复杂节理岩质边坡的滑动面确定与安全系数计算开辟了新的途径。 相似文献
15.
用sarma法计算了不同坡高、不同坡角、不同岩体和结构面力学参数的边坡在不同水平地震加速度系数下对应的安全系数,建立了一套能方便快捷地查询边坡安全系数的系统,为各种类型边坡的稳定性评价提供了依据。此外,还分析了坡高、坡角、地震加速度系数、岩体和结构面力学参数对地震边坡安全系数的影响。通过对比查询系统得到的安全系数与其他已有的地震边坡稳定性评价方法得到的安全系数的差异,得出用这种新安全系数查询方法得到的安全系数与其他安全系数计算方法得出的安全系数相差不大。通过将这种新的地震边坡稳定性评价方法应用到几个实际边坡中,所得到的评价结果与滑坡的实际发生情况一致。 相似文献
16.
目前对均质边坡稳定性受岩土体抗拉强度影响程度的看法不一,尤其是对不同坡度的边坡受抗拉强度的影响甚至有相反意见。基于有限差分程序FLAC3D提供的考虑张拉-剪切复合破坏的Mohr-Coulomb准则,采用强度折减法对多个典型均质边坡进行一系列数值计算,研究土体抗拉强度对不同坡度边坡稳定性的影响。结果表明:边坡越陡,土体抗拉强度对安全系数的影响越大;抗拉强度取值对直立边坡的稳定安全系数及变形破坏特征影响显著,对45°及以下边坡的影响相对较小。总体来说,对于坡角超过60°的陡坡,土体抗拉强度不同引起的边坡安全系数变化幅度可达10%以上,应在边坡稳定分析中特别注意,避免因土体抗拉强度取值过大或过小而导致计算结果偏于危险或过于保守。 相似文献
17.
Stability of slope in an opencast mine is always associated with safety and economics. The steeper slope is always preferred from economic point of view but prone to failure, whereas flatter slopes are uneconomical. A proper understanding of slope which will be a steep enough to be stable is required for safety, economy, and stability of men and machineries. The Rajapur opencast mine is one of the important mines in terms of good quality coal but has problems of water seepage, fire, and weak overburden materials. The existing coal mine has three working seams which are mostly thick and occur at shallow depths of about 50–60 m. Overall slope angle of the working faces as well as final pit is very steep which leads to failures. In the present paper, an attempt has been made to characterize the materials of the mine for simulation of existing slopes. The rock samples from the coal measures were collected to determine the petrophysical characteristics of various rock units. All the pertinent geological parameters from the exposed face were also collected during field visit to assess the slope mass rating (SMR). A two-dimensional finite difference tool was employed to simulate the existing slope geometry as well as relevant parameters of the rock units. The numerical simulation indicates various vulnerable points which are prone to failure as well as displacements at various points along the slope. The results of simulations are corroborated with the SMR value. The results are well matching with the field condition. 相似文献
18.
K. Ma C. A. Tang L. C. Li P. G. Ranjith M. Cai N. W. Xu 《Arabian Journal of Geosciences》2013,6(6):2147-2163
Little has been published on the three-dimensional (3D) simulation of the progressive failure of rock slopes, possibly because the process of failure involves a complex, nonlinear evolution from initiation, through propagation and crack. In addition, rock is typically anisotropic, which makes it difficult to identify and describe the slope constituents and failure processes accurately. Despite such difficulties, further study of the fracture process is just as important as analyzing stress fields in 3D rock slope failures. In this paper, the 3D realistic failure process analysis code using finite element programming, and an extended version of numerical centrifugal method, is used to simulate slopes failure with different dip angles. The numerical centrifugal analysis results in this paper are found that the critical failure surface develops along the weak structural surface when the slope dip angle β is below 30°; conversely, the failure surface is formed along the toe of circular sliding when β is above 30°. In addition, it is also found that whether or not including the irregularity of joint into modeling to analyze the 3D slope stability problem will lead to a significant difference in factors of safety, it can reach 8.41 % at the same slope angle. Furthermore, the acoustic emission analyzing reveals deformed location characters of rock slope during the failure processes. With such capabilities, the approach contributes significantly to the in-depth study of the mechanisms of rock slope instability process. 相似文献
19.
The moraine dam of the Tam Pokhari glacial lake breached on 3 September 1998 and caused a catastrophic flood in the downstream
areas. To learn from the event, a field survey was conducted. The survey team found that a landslide, which is considered
to be responsible for the outburst flood, occurred in the northeast-facing slope of the moraine dam. The dam internal structure
played a crucial role in forming a landslide that triggered the excess overflow and finally the breach of the dam. The internal
structure of the dam was made of alternating layers of finer and coarser sediments inclining at 30° downstream and layers
are truncated in the upslope direction by a huge pile of unconsolidated and structureless moraine materials. Since the upstream
slope angle of the dam i.e., 40° is larger than the angle of repose i.e. 35° of sediments, the increased pore water pressure
in the dam triggered a landslide. The rainfall and seismological activities of that particular day, which hit the record high,
were crucial in triggering the failure. It is estimated that the dam’s north and northeast-facing slopes completely slid involving
about 30,000 m3 of sediment mass of unconsolidated moraine materials above the shear plane. A slope stability analysis was also performed.
The calculated safety factor was 0.85, and the calculated slip circle agreed with the shear plane marked in the dam. About
18 million cubic metres of water was swiftly released due to the sudden breach of the moraine dam. 相似文献
20.
Liu Han Jisen Shu Qingxiang Cai Hongwen Jing Hua Tian 《Arabian Journal of Geosciences》2016,9(20):750
For waste dump slopes that form basements, landslides can be prevented by determining a stability evolving law of dynamic development. Keeping this issue in mind, the relationship between the mechanical structure and stability of waste dumps with basements is studied. Three key factors that influence waste dump stability are presented, and judgment criteria for self-locking and unlocking states of dump basements are provided. From the friction coefficient of waste dump basement stability analyses of the Shengli open pit mine, the results indicate that waste dump basements on the right side of fault F8 and on the left side of fault F61 are subjected to self-locking. However, between faults F61 and F8, the basement is subjected to unlocking. Regarding the residual thrusting of unlocking areas, structure and stability optimization schemes for waste dumps in the Shengli open pit mine are provided through a mechanics analysis. Reducing the slopes and basement angles of waste dumps can enhance their stability by increasing basement roughness levels. 相似文献