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171.
凹坑地形风流结构对污染物散布的模拟研究 总被引:1,自引:0,他引:1
利用建立的三维非静力高分辨率高阶湍流闭合模式与随机游动扩散模式研究了一个深凹露天矿区污染物散布的规律,同时在风洞中进行了示踪实验。结果表明,由于凹坑内复环流结构的存在,使得坑内污染物浓度较大,且浓度最大值出现在源的上风侧。数值试验与风洞试验结果吻合较好。 相似文献
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173.
二朗山公路隧道岩爆特征与预测研究 总被引:6,自引:1,他引:5
根据二郎山公路隧道施工中记录的200多次岩爆资料,总结隧道的岩爆特征,并采用“地质超前预报法”和“σθ/Rb判断现场测定预测法”两种方法,对岩爆预测问题进行有益探讨。 相似文献
174.
软土地层中地下隧道结构地震反应分析 总被引:12,自引:1,他引:11
本文从土与结构动力相互作用观点出发,同样条有限元和半解析无限元对地下隧道结构进行抗震分析,该方法具有降低维数,减少自由度,避免人为边界条件处理等特点,并可考虑复杂成层地基的情况。本文为探讨地下隧道结构-土相互作用内在机理提供了一个有效途径。 相似文献
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在用“2D σ”软件对所建模型进行数值计算的基础上, 分析了因采煤引起淮北矿区下部含水层水位下降而对井壁产生的影响。其表现为: 下部含水层水位下降将引起地层压缩沉降; 地层与井壁间产生附加应力, 并在基岩下部产生应力为零的中性点; 轴向应力由小变大; 当第一含水层和下部含水层同时有水位下降时, 也有类似的规律。计算结果与淮北诸矿井壁变形位置及变化状况基本相符, 因此在此基础上进行的井筒优化设计具有实际指导意义 相似文献
177.
世界首条盾构法联络通道一宁波地铁联络通道已经将盾构法挖掘地铁联络通道变为现实,但对于盾构法联络通道挖掘对地表沉降的影响还缺乏足够的认识和积累。以宁波地铁3号线某区间的地铁联络通道开挖为例,对盾构法联络通道施工过程进行了试验测试及CAE(Computer Aided Engineering)仿真,并成功地完成了施工过程中各个工况地表沉降仿真与测试的标定分析,得到了沉降幅值在各工况下的变化规律,指出盾构地铁联络通道施工过程中需要关注的危险工况,据此形成了一套真实、可靠、先进的仿真流程,可为联络通道后续沉降监控及其它联络通道施工过程的沉降预测提供支持。 相似文献
178.
A wind tunnel investigation of particle segregation,ripple formation and armouring within sand beds of systematically varied texture 下载免费PDF全文
This paper reports on a wind tunnel investigation of particle segregation, ripple formation and surface armouring within sand beds of systematically varied particle size distribution, from coarsely skewed to bimodal. By design, the system was closed with no external inputs of mass from an external particle feed. Particles too coarse to travel in saltation for the given range in wind speed were dyed red in order to distinguish them in optical images from finer sand particles, which could be entrained into the unidirectional airflow. A 3D laser scanner measured the changing bed topography at regular time intervals during 18 experiments involving varied combinations of wind speed and bed texture. Image classification techniques were used to investigate the coincident self‐organization of the two populations of particles, as distinguished by their colour. As soon as saltation commenced, some of the red particles segregated into thin discontinuous patches. Particle trapping and sheltering on these rough patches was strongly favoured, causing them to grow preferentially. During the earliest stages of formation, bedform growth coincided with: (i) rapid coarsening of the surface texture; and (ii) the merging of proto‐ripple ‘crests’ to generate larger rhythmic bedforms of lower frequency. Consistent with previous work, ripple size was observed to increase under stronger winds when not exceeding the threshold for entrainment of the coarse‐mode or red particles from the crest. With declining rates of mass transport and particle segregation as the bed surface armoured, and the consequent deceleration of ripple propagation through to the end of each experiment, all surfaces eventually attained a steady‐state morphometry. At saturation, the largest ripples developed on beds having the lowest initial concentration of red particles. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
179.
地下结构的地震响应主要取决于由地震波传播产生的土体变形与土结相互作用。剪切波传播过程中将会引起隧道衬砌的椭圆化变形,进而降低衬砌有效承载力。剪切波作用下的深埋圆形隧道可认为处于均质的纯剪状态,基于相对刚度法的拟静力解析解可充分考虑土结相互作用对隧道结构内力的影响。基于此,本文将通过有限元数值分析获得的自由场地地基变形引入不滑移状态下深埋圆形隧道内力求解公式,并结合二维和三维数值模拟途径,将动力分析结果与解析解结果进行对比分析,以评价各种解析方法的适用性和数值途径的可靠性。 相似文献
180.
Hong Cheng Chenchen Liu Jifeng Li Bo Liu Zhongquan Zheng Xueyong Zou Liqiang Kang Yi Fang 《地球表面变化过程与地形》2018,43(1):312-321
The topographic parameters and propagation velocity of aeolian sand ripples reflect complex erosion, transport, and deposition processes of sand on the land surface. In this study, three Nikon cameras located in the windward (0–1 m), middle (4.5–5.5 m), and downwind (9–10 m) zones of a 10 m long sand bed are used to continuously record changes in sand ripples. Based on the data extracted from these images, this study reaches the following conclusions. (1) The initial formation and full development times of sand ripples over a flatbed decrease with wind velocity. (2) The wavelengths of full development sand ripples are approximately twice the wavelengths of initially formed sand ripples. Both wavelengths increase linearly with friction velocity. During the developing stage of sand ripples, the wavelength increases linearly with time. (3) The propagation velocity of full development sand ripples is approximately 0.6 times that of the initially formed sand ripples. The propagation velocity of both initial and full development of sand ripples increase as power functions with respect to friction velocity. During the developing stage of sand ripples, the propagation velocity decreases with time following a power law. These results provide new information for understanding the formation and evolution of aeolian sand ripples and help improve numerical simulations. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献