降雨过程中边坡临界滑动场

降雨入渗过程中孔隙水压力的升高与基质吸力的降低引起边坡稳定性的下降,是导致边坡滑塌的主要诱导因素。利用饱和-非饱和渗流有限元计算得到的孔隙水压力场,基于Fredlund提出的非饱和土抗剪强度理论,对边坡临界滑动场进行改进,提出可以考虑降雨过程的边坡临界滑动场数值模拟方法,能够方便、快速地计算出边坡局部、整体安全系数和相对应的临界滑动面在降雨过程中的变化历程。将该法用于一个典型均质边坡和一个非均质边坡在降雨过程中的稳定性计算,分析降雨持续时间、降雨强度和非饱和强度参数取值等因素对边坡稳定性的影响,并将计算结果与其他方法进行比较,结果表明临界滑动场方法能搜索任意形状最危险滑面,计算的安全系数合理。     

地震动作用下均匀土质边坡的临界转角分析

均质土坡变形的整体旋转角度（即转角）与其弧形滑动特征相协调,是比永久位移更为优越的土坡变形与稳定性表征量。地震动瞬态弹性变形应变能相当于土坡系统势能的动态随机性“涨落”,临界点（临界转角）作为系统本身的一个固有特性,不受地震动随机性“涨落”的影响,土坡滑动失稳的临界转角实质上对应着系统势能的突变点。基于均质土坡地震动失稳的特点,结合突变理论,给出了确定失稳临界转角的计算公式,发现其仅与滑带介质本构模型参数 、 和滑弧半径R有关,但在本质上体现了诸因素的影响而具有广泛适用性。     

高陡复杂露天矿边坡地应力场分区非线性反演分析

地应力是边坡稳定性分析的重要因素。在杏山铁矿露天高陡边坡实测地应力数据的基础上,采用多元线性回归方法,在充分考虑岩体自重与构造应力影响的情况下,对5类11种边界条件工况进行了有限差分FLAC3D的模拟加载,反演得出研究区域内的地应力场。鉴于该方法只能对地应力场进行线性和全区反演,这对内部结构极其复杂、矿区内各个区域岩性和地形差异较大的金属矿山矿体显然是不够准确的。为了克服以上缺陷,采用了非线性的神经网络反演方法,并根据岩体的岩性分布和地形起伏将整个矿区划分为5个分区,通过引入侧压力系数k0实现分区域反演,从而得到整个矿区的地应力场。研究表明,在复杂地质条件下,神经网络方法反演出的初始地应力分布更加合理。     

缝洞型碳酸盐岩油气分布规律及成藏条件：以塔中北斜坡东部鹰山组为例

缝洞型碳酸盐岩储集层具有强烈的非均质性,其油气成藏及富集规律极其复杂,充分认识此类油气藏的形成条件及分布特点对油气藏进一步勘探及有效开发至关重要。通过对东部井区的统计分析,目的层油气性质与I号断裂带及走滑断裂密切相关,平面上塔中北斜坡东部鹰山组油气具有“西油东气,内油外气”的分布特征,纵向上油气集中在不整合面以下200 m内,沿风化壳不整合面呈“准层状”分布。从源、储、盖、运等成藏要素角度对油气成藏控制因素进行了综合研究,结果表明：该研究区发育两套烃源岩,且经历了多期充注,为油气聚集提供了充足的物质基础;后期构造抬升及断裂活动促进岩溶作用的进行,改善了储层的储集性能,为油气富集提供了有利的场所;良三段到良五段致密灰岩分布广、厚度大,可以有效封闭油气,为油气聚集提供了较好的保存条件;塔中北斜坡东部断裂及不整合面是油气成藏的关键,沟通源岩为油气运移聚集提供了良好的通道。     

Optimization of slope angle and its seismic stability: A case study for the proposed open pit coalmine in Phulbari, NW Bangladesh

The present study reflects upon the results of substantial program of two-dimensional Finite Element Method （FEM） numerical analyses of the open pit that links to slope angle optimization associated with the safety factor of the pit slope of a coal mine in Bangladesh. In the present analyses, two types of models have been presented. The first model estimates safety factor without seismic effect on the overall pit slope of the model; the second model incorporates safety factor with seismic stability of the model. The calculated optimum slope angle of the first model is 31% with a rational safety factor of 1.51, prior to the seismic effect. However, the value is reduced to 0.93, 0.82, and 0.72, after we applies the seismic effect in the second model with M6, M6.5, and M7, respectively. Finally, our modeling results emphasize that for the case of the proposed Phulbari coalmine, there is extremely high prospect for causing massive slope failure along the optimum pit slope angle with 31% if the mine area felt seismic shaking, like the Sikkim （in northern India） earthquake with M6.9 on September 18, 2011.     

基于区间方法的岩质边坡稳定性非概率可靠性分析

在综合分析岩土参数区间性的基础上,通过引入区间分析方法和非概率可靠性思想,建立岩质边坡稳定的非概率可靠性模型,并针对区间运算结果扩张问题,引入区间截断法和区间优化法,对边坡非概率可靠性指标进行较为精确的求解。然后,以湖北某岩质高边坡为实例,进一步探讨了岩体参数变异性对岩质边坡稳定的非概率可靠性指标的影响规律。     

Finite element analysis of steep excavation slope failure by CFS theory

The distribution of Coulomb failure stress (CFS) change in the steep excavation slope is calculated by finite element method in this paper, and the failure mechanics under different conditions have been investigated. Comparing the CFSs before and after the slope excavation (stress loading and unloading processes), the dangerous internal zone and the most likely failure external area are attained. Given the shear cracks on the top surface while tensile stress or cracks along the toe of the slope, we analyze the high cutting-angle steep slope in Kaixian county of the Three Gorges Reservoir region. We bring forward that the peak value of CFS after excavation can reach to the order of 0.1 MPa, which is greatly higher than that of before. Our preliminary results are useful for optimizing the reinforcement structure during the steep slope stabilization engineering.     

渤海辽东湾区海底地形分区特征和成因研究

为了探明辽东湾区海底地形,通过测深系统对辽东湾区海底地形进行了高进度、全覆盖测量,进而根据地形起伏特点对辽东湾区海底地形进行了分区,并分析了影响辽东湾地形发育的主要因素。结果表明:辽东湾区海底地形分为5个子区,地形发育受地质构造、水动力来源和沉积物供应的复合影响。     

Applying Iterative Method to Solving High-Order Terms of Seafloor Topography

Abstract

We introduce an iterative inversion method to address the problems in high-order seafloor topography inversion using gravity data (gravity anomaly and vertical gravity gradient anomaly), such as the difficulty in computing the equation and the uniqueness of the calculation results. A part of the South China Sea is selected as the experimental area. Considering the coherence and admittance function of gravity topography and vertical gravity gradient topography, the inversion band of the gravity anomaly and vertical gravity gradient anomaly in the study area is 30?km–120?km. Seafloor topography models of different orders are constructed using an iterative method, and the performance of each seafloor topography model is analyzed against ETOPO1 and other seafloor topography models. The experimental results show that as the inversion order increases, the clarity and richness of seafloor topographic expression continuously improve. However, the accuracy of seafloor topography inversion does not improve significantly when the inversion order exceeds a certain value, which is related to the contribution of high-order seafloor topography to gravity information. The results show that the accuracy of BGT4 (inversion model constructed by the gravity anomaly) is slightly poorer than that of BVGGT4 (inversion model constructed by the vertical gravity gradient anomaly) in areas with complex topography, such as multi-seamounts and trenches, and the results are generally better in areas with flat seafloor topography.     

卫星重力梯度测量在海洋科学中的应用分析

简述了卫星重力梯度测量技术的基本原理和GOCE数据特点;基于三个不同的重力场模型,采用不同阶次,联合卫星测高平均海面高模型分别推算出全球海面地形,并对结果作了比较分析;探讨了卫星重力梯度测量技术在海洋科学各相关领域的具体应用前景,指出卫星重力梯度测量技术的发展将为海洋科学发展带来巨大的变化。