渗透压-应力耦合作用下煤体常规三轴试验的颗粒流模拟

为了研究在渗透压-应力耦合作用下围压和瓦斯压力对煤体变形破坏规律的影响,借助PFC2D软件进行了340组抗压及抗拉试验模拟,建立了煤体宏观力学参数与细观参数之间的关系。利用平行黏结模型和推导得出的细观参数,对煤体进行了不同围压和瓦斯压力条件下常规三轴试验的颗粒流模拟,并将模拟结果与物理试验结果进行对比及误差分析,对煤体宏观力学参数的变化规律进行了总结。分析结果表明,经过推导得到的宏细观参数关系,可以控制模拟结果的误差在10%之内,能较好地模拟煤体的力学特征;围压增大时,煤体的抗压强度、残余强度及弹性模量呈增大趋势,泊松比以及煤体的破裂角度变小,与物理试验所得围压对煤体的刚度和强度起增强作用的结论一致;瓦斯压力的升高会导致煤体抗压强度,残余强度及弹性模量减小,泊松比以及煤体破裂角度变大,验证了物理试验中瓦斯压力对煤体强度具有劣化作用的结论。     

随机与确定耦合的裂隙岩体结构面三维网络模拟

离散裂隙随机网络模型中结构面的分布特征仅代表其统计规律,并非地质成因、结构模式、构造形迹的客观反映,以致后续力学计算及渗流模拟结果可信度偏低。针对国家高放废物处置库甘肃北山预选区出露良好的花岗岩体,基于实测结构面统计规律、内在成生关系及水力联系,在前期纯随机模型关键部位修正特征参数,并融入人工辨识的确定结构模式而构建“随机-确定”耦合模型。图形和渗流模拟两种定量检验结果表明：耦合模型结构面数量更接近客观实际,模型准确度提升约48.8%;耦合模型渗流路径与流量较之前更显客观真实,模拟结果与试验数据的接近程度比随机模型大约1/3。另外,不同孔位渗流结果显示：相比于随机结构面,确定性结构面对区域渗流控制作用更加明显,在渗流模拟中扮演更为重要角色。此耦合模型有益于拓宽结构面网络模拟的发展方向。     

大松动圈围岩锚网索联合支护参数确定方法探讨

对大松动圈围岩巷道,单一锚杆支护难以实现对整个破裂区围岩的锚固控制,采用锚网索联合支护时,应考虑锚杆支护对联合支护设计的作用。通过分析大松动圈围岩锚杆锚固支护机制,提出量化锚杆支护作用的锚固承载系数,形成锚网索联合支护参数量化计算方法。研究结果表明：锚杆锚固支护后将大松动圈围岩分为浅层锚固区和深层破裂区,浅层锚固区具有一定承载能力,可视作锚索的等效托盘;在锚网索联合支护中,浅层锚固区承载结构稳定的条件是锚固结构承载力大于环向轴力且能够有效控制破裂区围岩;锚固承载系数大小主要取决于浅层锚固区与破裂区和锚杆预紧力与设计锚固力的关系,对于大松动圈围岩其取值范围为0.45～0.75。经现场试验可知,巷道顶底板移近量为273 mm,两帮移近量为393 mm,表面位移曲线趋于平稳,采用该方法得到的锚网索支护参数有效保证了巷道的正常使用。     

Numerical investigation of the response of the Yele rockfill dam during the 2008 Wenchuan earthquake

In this paper the seismic response of a well-documented Chinese rockfill dam, Yele dam, is simulated and investigated employing the dynamic hydro-mechanically (HM) coupled finite element (FE) method. The objective of the study is to firstly validate the numerical model for static and dynamic analyses of rockfill dams against the unique monitoring data on the Yele dam recorded before and during the Wenchuan earthquake. The initial stress state of the dynamic analysis is reproduced by simulating the geological history of the dam foundation, the dam construction and the reservoir impounding. Subsequently, the predicted seismic response of the Yele dam is analysed, in terms of the deformed shape, crest settlements and acceleration distribution pattern, in order to understand its seismic behaviour, assess its seismic safety and provide indication for the application of any potential reinforcement measures. The results show that the predicted seismic deformation of the Yele dam is in agreement with field observations that suggested that the dam operated safely during the Wenchuan earthquake. Finally, parametric studies are conducted to explore the impact of two factors on the seismic response of rockfill dams, i.e. the permeability of materials comprising the dam body and the vertical ground motion.     

大型地下水封石油洞库施工过程力学特性研究

施工过程对地下工程岩土力学性质具有重要影响。以国内首个在建的大型地下水封石油储库为背景,运用流-固耦合理论,研究了不同排水条件下大型地下水封石油洞库的施工过程力学特征。研究表明排水条件和开挖顺序对洞库渗流场和稳定性具有重要影响。排水条件下洞库围岩孔隙水压力小于不排水条件下,而同在排水条件下不同开挖顺序洞库孔隙水压力时空分布和涌水量也不相同。排水条件下洞壁围岩松动区范围远小于不排水条件下范围,但两种条件下应力场时空分布规律均与开挖顺序密切相关。排水条件下洞库围岩水平收敛小于拱顶沉降,而不排水条件下洞库围岩水平收敛大于拱顶沉降。在相同排水条件下围岩变形与开挖顺序有关。研究成果不但可以为大型地下水封石油洞库建设提供依据,还可丰富施工过程力学理论内涵。     

地铁联络通道冻结施工的热流固(THM)耦合分析

随着城市地铁规模的不断发展, 冻结法在地铁联络通道施工中得到了广泛应用.为了得到合适的地层冻结工艺参数和指标, 了解开挖隧道对地层稳定性的影响, 保证工程的安全性, 基于考虑相变及冻胀的热-流-固(THM)耦合理论, 采用COMSOL有限元分析软件模拟某地铁联络通道水平人工冻结及开挖施工过程.分析了冻结过程中地层温度场、渗流场及位移场的变化规律, 研究了开挖后地层位移场的分布规律.结果表明: 由于水渗流作用, 温度场和位移场的分布不再关于y轴对称;在人工冻结过程中, 地表处冻胀位移的最大值出现在y轴以右, 冻胀量变化表现为先线性增长, 而后趋于稳定.总体上, 实施人工冻结可以很好地增加周围土体的强度及稳定性, 对止水和抑制地层变形具有良好的效果.     

The coupling status of alluvial fans and debris cones: a review and synthesis

Alluvial fans and debris cones link two zones of the fluvial system (e.g. hillslope gully systems to stream channels; mountain catchment sediment source areas to main river systems or to sedimentary basins) and therefore have important coupling or buffering roles. These roles may be both functional and preservational. The functional role includes debris‐cone coupling, which controls sediment supply from hillslope gully systems to stream channels, influencing channel morphology. Coupling through larger alluvial fans, expressed by fanhead trenching, causes a distal shift in sedimentation zones, or when expressed by through‐fan trenching, causes complete sediment by‐pass. The preservational role stems from the fact that fans and cones are temporary sediment storage zones, and may preserve a record of source–area environmental change more sensitively than would sediments preserved further downsystem. Fan coupling mechanisms include distally‐induced coupling (basal scour, ‘toe cutting’, marginal incision) and proximally‐induced coupling (fanhead and midfan trenching). These mechanisms lead initially to partial coupling, either extending the immediate sediment source area to the stream system or shifting the focus of sedimentation distally. Complete coupling involves transmission of sediment from the feeder catchment through the fan environment into the downstream drainage or a sedimentary basin. The implications of coupling relate to downstream channel response, fan morphology, sedimentation patterns and vertical sedimentary sequences. Temporal and spatial scales of coupling are related, and with increasing scales the dominant controls shift from storm events to land cover to climatic and base‐level change and ultimately to the relationships between tectonics and accommodation space. Finally, future research challenges are identified. Modern dating techniques and sophisticated analysis of remotely sensed data can greatly improve our understanding of fan dynamics, and should lead to better cross‐scale integration between short‐term process‐based approaches and long‐term sedimentological applications, while maintaining high quality field‐based observations. Copyright © 2011 John Wiley & Sons, Ltd.     

处于海洋环境的桩柱在瑞利波作用下的响应

本文以一海洋深水环境桩柱为例,考虑到海洋地基为两相饱和土介质,基于Biot两相饱和多孔介质理论,通过数值算例分析了饱和介质中瑞利波加速度、位移分布规律并与单相弹性介质地基条件下进行了对比,结果表明,瑞利波主要作用于地表附近且振动幅度随深度衰减很快,饱和地基下的瑞利波影响深度要大于单相弹性地基,在瑞利波地震作用下,考虑两相饱和介质下的桩柱位移响应大于单相弹性介质地基。并且由于桩柱处海洋深水环境,本文对环境水体对桩柱振动响应的影响进行了研究,结果表明,流固耦合效应可明显降低桩柱运动响应,在海洋深水环境地震响应分析时,有必要考虑饱和地基以及流固耦合效应对桩柱运动响应的影响。     

深圳海域潮汐海啸波耦合数值研究

以COMCOT海啸模式和TPXO7.1全球潮汐模式为基础,采用三层嵌套网格,建立了南海海啸与潮汐耦合计算模型,分析深圳海域海啸和潮汐相互作用。潮汐计算结果与实测数据吻合较好,高、低潮位平均误差小于15 cm,20 cm;在潮汐验证的基础上,以马尼拉海沟潜在地震海啸源为案例,进行8.0,9.0级地震海啸与潮汐耦合情景模拟计算,计算结果表明,9级地震海啸在深圳海域外海波高为140~150 cm,如先行波为正波发生在高潮时将产生异常高潮位,负波发生在低潮时将产生异常低潮位,线性叠加计算结果偏大,在25.0 cm之内,到达时间差异小于6 min。     

新疆和什托洛盖盆地构造演化特征及其对油气成藏的影响

和什托洛盖盆地为准噶尔西北缘大型逆冲褶皱带的一个早中生代盆地,油气地质特征复杂.应用成盆动力学及盆山耦合系统的理论对盆地进行系统的构造解析,并利用平衡剖面技术全面解剖和什托洛盖盆地的构造演化特征.同时,深入分析和探讨了不同阶段构造演化过程对油气运聚成藏的控制和影响作用.在此基础上,获得了以下重要结论与认识：（1）和什托洛盖盆地的构造演化与准噶尔盆地西北缘和哈拉阿拉特山有着密切关系,大致经历了3个演化阶段,即盆地雏形阶段（C-T）、盆地主要发育阶段（J-K）和盆地改造阶段（E-Q）;（2）和什托洛盖盆地的烃源岩、储集层、盖层及圈闭均较发育,断裂和区域性不整合面为油气运移创造了良好的条件;（3）目前应以盆地西部为重要靶区,同时加强对于侏罗系低成熟气、煤成气生成的综合研究.