共查询到19条相似文献,搜索用时 234 毫秒
1.
冻土地区三角形块石路基与水平块石路基的保冷效果研究 总被引:2,自引:2,他引:0
Time varying temperatures and pore-air velocities in two gravel embankments, horizontal and triangular gravel embankments, are studied using the "Rock-Block model" and the results are visualized in the form of isotherms and velocity vectors for different times of the year. Simulation results show that for both the two embankments there is a counter-clockwise rotation of pore-air extending throughout most of the embankment during winter months, whereas in summer the pore-air rotation changes to the opposite. The pore-air velocities in the triangle gravel embankment are somewhat higher than those obtained from the horizontal gravel embankment. The stronger convection in winter enhances the upward transport of heat out of the triangle gravel embankment, thus having more apparent cooling effect than the horizontal gravel embankment. During summer months, the pore-air velocities are nearly the same for both the two embankments. The results of the present study show that though the two gravel embankments have the effect of cooling the permafrost beneath, the temperature fields in the triangle gravel embankment are a little lower and more stable compared with those gotten from the horizontal gravel embankment, showing that the triangle gravel embankment has more apparent cooling effect than the horizontal one. 相似文献
2.
Permafrost along the Qinghai-Tibet railway is featured by abundant ground ice and high ground temperature. Under the influence of climate warming and engineering activities, the permafrost is under degradation process. The main difficulty in railway roadbed construction is how to prevent thawing settlement caused by degradation of permafrost. Therefore the proactively cooling methods based on controlling solar radiation, heat conductivity and heat convection were adopted instead of the traditional passive methods, which is simply increasing thermal resistance. The cooling methods used in the Qinghai-Tibet railway construction include sunshine-shielding roadbeds, crushed rock based roadbeds, roadbeds with rock revetments, duct-ventilated roadbeds, thermosyphon installed roadbeds and land bridges. The field monitored data show that the cooling methods are effective in protecting the underlying permafrost, the permafrost table was uplifted under the embankments and therefore the roadbed stability was guaranteed. 相似文献
3.
Finite Element Method has been used to operate the numerical analysis and comparison between the traditional ventilated embankment and the adjustable ventilated embankment adopted in Qinghai-Tibet Railway construction. The numerical results show that: 1) The adjustable ventilated embankments can prevent the thermal entry from air into ducts during summer from thawing the permafrost beneath the embankments; 2) The cooling effects of the adjustable ventilated embankments on permafrost is much better than the traditional ventilated embankments although two kinds of embankments can generate the thawing bulbs at the beginning of finishing construction; 3) The drop of the mean temperature of permafrost under the adjustable ventilated embankments keeps faster than that of the mean temperature of permafrost under the traditional ventilated embankments. It is clear that the adjustable ventilated embankments can keep the embankment more stable than the traditional ventilated embankments. 相似文献
4.
In permafrost regions of Qinghai-Tibetan Plateau, the critical embankment height must be considered in the process of the construction of highway, especially for the global climatic warming. In this paper, the two-dimensional numerical analysis for the critical embankment height (for gravel road surface and coarse-grained soil) has been performed by using thefinite element method. In the calculation, we think that the service life of the construction is at least 50 years. The mean annual air temperatures applied to the calculation model are -6.5 ℃, -6.0 ℃, -5.5 ℃, -5.0 ℃, -4.5 ℃ and -4.0 ℃, respectively, and the value of temperature rise are taken as 1.10℃ in the coming 50 years. The minimum embankment heights derived from the analysis are 0.85 m, 0.92 m, 1.01 m, 1.18 m, 1.60 m and 2.66 m for the different mean annual air temperatures and the maximum embankment heights are 7.68 m,7.55 m, 7.34 m, 7.00 m, 6.45 m and 5.85m, accordingly. On condition that the service life of embankment is 50 years, the critical value of the mean annual air temperature is -3.5 ℃. Namely, in the areas where the mean annual air temperature is higher than -3.5 ℃, the critical embankment height does not exist. 相似文献
5.
Aiming at the stabilization of Qinghai-Tibetan Railway embankment during its construction and run, the method using tilt pipes to keep the permafrost embankment stabilization is put forward in the paper. By gathering natural cold energy in the winter and release it in the summer the tilt pipes can keep the permafrost embankment stabilizing. The temperature fields of the embankment and the stratums below are studied according to the condition of pipes diameter 250mm, length 7. 0m and tilt angle 30°,45°, 60° until the railway working for 20 years. It is shown that the embankment field using tilt pipes will eliminate the thawing core and come into subzero temperature phase ahead of 9 years compared with the original model. Different tilt angles have different efforts on the embankment and stratums, synthesis analysis of thermal income and expenses of the embankment and stratums should be carried out 相似文献
6.
JianWenxing ZhangYihu YinHongmei 《中国地质大学学报(英文版)》2004,15(4):395-400
The basic features of the colluvial deposit slope in Zuoyituo such as geological conditions, dimensions, slip surfaces and groundwater conditions are described concisely in this paper. The formation mechanism of the slope is discussed. It is considered that the formation of the colluvial deposit slope in Zuoyituo has undergone accumulation, slip, load, deformation and failure. The effects of rainfall on slope stability are categorized systematically based on existing methodology, and ways to determine the effects quantitatively are presented. The remained slip force method is improved by the addition of quantitative relations to the existing formulae and programs. The parameters of the colluvial deposit slope are determined through experimentation and the method of back-analysis. The safety factors of the slope are calculated with the improved remained slip force method and the Sarma method. The results show that rainfall and water level in the Yangtze River have a significant effect on the stability of the colluvial deposit slope in Zuoyituo. The hazards caused by the instability of the slope are assessed, and prevention methods are put forward. 相似文献
7.
Abstract: Permafrost (perennially frozen ground) appears widely in the Golmud-Lhasa section of the Qinghai-Tibet railway and is characterized by high ground temperature (≥ ?1°C) and massive ground ice. Under the scenarios of global warming and human activity, the permafrost under the railway will gradually thaw and the massive ground ice will slowly melt, resulting in some thaw settlement hazards, which mainly include longitudinal and lateral cracks, and slope failure. The crushed rock layer has a thermal semiconductor effect under the periodic fluctuation of natural air. It can be used to lower the temperature of the underlying permafrost along the Qinghai-Tibet railway, and mitigate the thaw settlement hazards of the subgrade. In the present paper, the daily and annual changes in the thermal characteristics of the embankment with crushed rock side slope (ECRSS) were quantitatively simulated using the numerical method to study the cooling effect of the crushed rock layer and its mitigative ability. The results showed that the ECRSS absorbed some heat in the daytime in summer, but part of it was released at night, which accounted for approximately 20% of that absorbed. Within a year, it removed more heat from the railway subgrade in winter than that absorbed in summer. It can store approximately 20% of the “cold” energy in subgrade. Therefore, ECRSS is a better measure to mitigate thaw settlement hazards to the railway. 相似文献
8.
Hui ZHANG 《中国地球化学学报》2006,25(B08):197-197
The speciation of heavy metals is very important to evaluate their environmental impact. This issue has become an interested topic many decades ago and many significative studies were carried out such as direct detecting, calculation with mathematical model represented in recent years as well as Tessier's work in 1979, BCR's work in 1993, etc. In all of them, the methods recommended by Tessier and BCR are most often used in practical study today. But it should be seen that experimental schedule and agents define these methods including BCR's method, which improved on Tessier's method, only. In many cases, there always are deviations between analytical results and real content of the speciation. Otherwise, steps of the extraction experiment are always strict and excessive in the experimental process. The method, which is fitting to extract the speciation of bioavailability and easy to assess the effect of metals in the environment, is very anticipant. In this paper, the sequential three steps schedule of speciation analysis of copper in soil and water sediment is discussed as an example based on the comparative results of experimental analysis with the schedules of BCR's (mended by Rauret et al. in 1999) and TDPA (diethylenetriamine pentacetic acid) extraction, respectively. The results from sequential three steps method and other methods recommended by prevenient work suggest that the analytical schedule of sequential three steps of separating speciation (the speciation of easy effect to life-form, the speciation available to life-form, and the speciation of no effect to life-form) is valuable for copper speciation analysis in soil and sediment. Because of easy process and saving time to evaluate its availability for life form, 相似文献
9.
M.M. Dubina 《冰川冻土》2004,26(Z1):253-256
In cryolithozone conditions the control facilities a three-dimensional temperature mode of a place of crossing by the road embankment cross channel of various assignment for maintenance of structure stability are considered. The management is carried out through regulation by conditions of heat exchange on borders of a structure and in a ground massif. The software complex of thermal and mechanical behaviour computer modeling of structures considered class is created for the decision of control facilities designing tasks. The results of computing experiments show efficiency of application of such means, including as compensatory measures for maintenance of a considered structure stability at possible of a climate warming. 相似文献
10.
Although there has been significant progress in the seismic imaging of mantle heterogeneity,the outstanding issue that remains to be resolved is the unknown distribution of mantle temperature anomalies in the distant geological past that give rise to the present-day anomalies inferred by global tomography models.To address this question,we present 3-D convection models in compressible and self-gravitating mantle initialised by different hypothetical temperature patterns.A notable feature of our forward convection modelling is the use of self-consistent coupling of the motion of surface tectonic plates to the underlying mantle flow,without imposing prescribed surface velocities(i.e.,plate-like boundary condition).As an approximation for the surface mechanical conditions before plate tectonics began to operate we employ the no-slip(rigid) boundary condition.A rigid boundary condition demonstrates that the initial thermally-dominated structure is preserved,and its geographical location is fixed during the evolution of mantle flow.Considering the impact of different assumed surface boundary conditions(rigid and plate-like) on the evolution of thermal heterogeneity in the mantle we suggest that the intrinsic buoyancy of seven superplumes is most-likely resolved in the tomographic images of present-day mantle thermal structure.Our convection simulations with a plate-like boundary condition reveal that the evolution of an initial cold anomaly beneath the Java-Indonesian trench system yields a long-term,stable pattern of thermal heterogeneity in the lowermost mantle that resembles the presentday Large Low Shear Velocity Provinces(LLSVPs),especially below the Pacific.The evolution of subduction zones may be,however,influenced by the mantle-wide flow driven by deeply-rooted and longlived superplumes since Archean times.These convection models also detect the intrinsic buoyancy of the Perm Anomaly that has been identified as a unique slow feature distinct from the two principal LLSVPs.We find there is no need for dense chemical ’piles’ in the lower mantle to generate a stable distribution of temperature anomalies that are correlated to the LLSVPs and the Perm Anomaly.Our tomography-based convection simulations also demonstrate that intraplate volcanism in the south-east Pacific may be interpreted in terms of shallow small-scale convection triggered by a superplume beneath the East Pacific Rise. 相似文献
11.
为了研究透壁式通风管-块石复合气冷路基的降温效果,针对年均气温约-3.5℃,平均风速2.5 m·s-1,主导风向为西北方向的高原环境条件开展室内模型试验,分析了单一块石气冷路基和透壁式通风管-块石复合气冷路基的孔隙空气对流速度、特征点地温变化过程以及模型整体温度场变化过程.结果表明:在透壁式通风管的疏导作用下,透壁式通风管与块石层的复合结构能够起到强化路基体对流的效果,复合路基块石孔隙中的空气流速比单一块石路基提高约20%,由此导致复合路基模型底部的降温幅度是单一块石路基模型的2.2倍.模型整体温度场表明,复合路基能够起到储存冷量、降低下伏多年冻土地温的作用. 相似文献
12.
多年冻土区路基边坡遮阳板降温过程试验研究 总被引:5,自引:4,他引:1
基于室内的系统试验,试验条件下研究发现遮阳板对热辐射的遮挡是有效避免路基坡面升温主要的因素;遮阳板下空气对流换热可及时带走遮阳板本身及遮阳板辐射产生的热量,这是避免坡面升温的重要补充;遮阳板下空气的有效流动,可以将坡面温度保持在较一般地表温度更低的水平上.由于遮阳板对下部空气层的限制作用,在遮阳板下产生“烟囱效应”,由此使得遮阳板下的空气流速得以大幅提高.青藏公路遮阳板试验段观测资料证明,通过遮阳板在路基边坡的实施,可以降低整个坡面年平均温度约3.2℃,并较天然地表低约1.5℃. 相似文献
13.
碎石层的"热半导体"作用 总被引:11,自引:2,他引:9
碎石层在冰缘地区有广泛分布.众多文献报道,碎石层具有降低其下地温的作用,根据这些现象,对其致冷形成机理进行了研究.结果表明:对封闭的倾斜碎石层,其致冷机制主要基于Rayleigh-Bènard对流;对开放的倾斜碎石层,其致冷机制包括“烟囱效应”和风引起的强迫对流.并进一步用模型试验、数值模拟和现场的实体试验对致冷机理进行了验证.碎石层己在青藏铁路建设中得到广泛应用,并被证明起到了冷却路基的作用.这一措施效果显著、施工简便、环境友好且成本相对较低,可用于多种冻土工程,以适应全球变暖的影响. 相似文献
14.
青藏铁路块石路基冷却降温效果对比分析 总被引:2,自引:0,他引:2
基于现场地温监测数据,对青藏铁路两种主要块石路基(块石护坡及U型块石路基)在不同年平均地温分区的冷却降温效果进行对比分析,发现不论是在低温基本稳定区(年平均温度-2.0 ℃≤TCP<-1.0 ℃)还是高温极不稳定区(TCP>-0.5 ℃),两种块石路基的应用都能够有效地提升路基下部多年冻土上限。但两种不同块石结构路基表现出不同的冷却降温效果,其中U型块石路基冷却降温效果较好,在路基下多年冻土上限提升及下伏浅层多年冻土降温的同时,深层多年冻土温度保持稳定;而块石护坡路基下人为多年冻土上限的提升及浅层多年冻土温度的降低一定程度上消耗了下伏深层多年冻土的冷量,从而导致其温度有所升高。同时,在不同的年平均地温分区块石路基表现出不同的冷却降温效果:年平均地温较低断面,块石路基冷却降温效果显著。在年平均地温较高的断面,尤其是高温极不稳定多年冻土区,块石护坡路基下伏深层多年冻土温度升高明显,路基长期稳定性难以得到保证。 相似文献
15.
寒区高等级公路宽幅路面比普通路面吸热面积更大,增加了保证路基稳定性的难度.在对其进行路基温度场的稳定性分析时,传统的有限元方法都是进行确定性分析,没有考虑到边界条件等因素的随机性、变异性,因此不能得知以上随机因素引起温度场的变幅.采用随机有限元法,由温度场的变分原理,通过摄动法建立随机温度场,从而得到随机温度场的有限元格式,理论公式可广泛适用于其他工程随机温度场问题. 将宽幅路基气温边界条件参数设为随机变量,考虑升温效应,对寒区宽幅路基温度场进行计算,分析了温度场均值和方差的分布规律.结果表明:宽幅路基中部聚热效应明显,路基下部出现厚度不均匀的融化盘,可能造成路基不均匀沉降;边界条件的随机性造成温度场方差分布呈明显的边界效应,即越靠近路基上边界温度场方差越大,在一定深度以下趋于零.此外,不论是路基下出现的融化盘,还是温度场方差分布下边界都将随时间增长而扩大. 相似文献
16.
17.
封闭条件下抛石路堤降温效果及机理的试验研究 总被引:22,自引:13,他引:9
在多年冻土地区道路工程的修筑与维护中, 如何保证多年冻土不退化所采取措施的长期可靠度问题日益为人们所关注. 通过室内试验研究了实际工程中半开放半封闭抛石路堤受到风沙或积雪填埋后,在不同温度变幅条件下的降温效果. 实验结果发现: 在满足一定厚度时, 封闭条件下的块石层仍具有良好的降温效果, 具有可变等效导热系数的特性, 在实验中充分体现了"热二极管效应". 在外界温度变幅较大的条件下, 降温速度和降温效率均大于温度变幅较小的情况. 通过对块石层顶底温差与其顶部温度变化关系, 以及块石层内温度场特征的分析, 证实了封闭块石层内自然对流的真实存在和对流的运动发展趋势. 试验结果为抛石路堤降温的长期可靠性提供了依据. 相似文献
18.
风流场对于局地条件下地-气能量交换过程与强度影响显著,同时也是多年冻土区对流调控类冷却路基的关键环境边界。结合现场监测与数值模拟,对高海拔冻土路基周边风流场进行特征区划研究并考察路基高度的影响。结果表明:坡前扰动区为低风速区,3 m路基高度条件下迎风坡坡脚0.5~2.0 m高度范围内风速约为环境风速的30%。路基上部为高风速区,迎风坡路肩风速明显大于环境、路面中部及背风坡风速。背风坡坡后扰动区为低风速区,靠近坡脚区域受气流辐散效应作用形成涡旋区,整体风速仅为环境风速的30%。涡旋区水平范围随路基高度增加呈线性增加,3 m路基高度条件下涡旋区水平范围约为12 m。分离式路基即两幅路基并行条件下,受前幅路基影响后幅路基坡前风速下降明显,以两幅路基坡前风速差值不超过环境风速的10%(0.35 m·s-1)为标准,3 m路基高度条件下两幅路基最小间距为60 m。因此,在路基工程的修建过程中为减少路基间的遮挡所造成的两幅路基间的对流换热强度差异,分离式对流换热类冷却路基的现场修建间距应不低于60 m。 相似文献
19.
块石路基对流特性实验研究 总被引:4,自引:3,他引:1
利用块石层调控冻土路基地温是冻土工程主动冷却路基的一种重要措施,并在青藏铁路重大工程建设中得到广泛应用.通过块石层中空气流动特性的深入研究,对其结构优化和效能提升具有重要意义,而不同温差条件下块石层中空气的流动特性,以及微风速的实际测定一直是其中亟待解决的问题.通过高精度微风速探测,首次获得封闭条件下块石层的空气流动特征.结果表明:在边界温度波动条件下,块石层内的降温过程与其内部自然对流过程密切相关,在对流作用下快速完成降温过程;升温过程则在相对较长时段内主要由内部的热传导换热完成,由此导致温度变化曲线非对称这一特殊现象的出现,并随深度增加而愈加明显.块石层上下端面的温差是对流发生及强度的关键控制因素,当温差达到一定量值时流速随温差的增加而加大,同时空气温度的变化也会对空气流动过程产生影响;块石层内整个空气流动过程是一个传递过程,也是热量传递的过程.该实验研究结果将对该种工程措施机理的进一步认识和改进、相关模拟计算参数的选取,以及在冻土区高等级公路等重大工程建设中的进一步有效应用均具有重要意义. 相似文献