共查询到20条相似文献,搜索用时 31 毫秒
1.
Yi Qun Tang Xingwei Ren Bin Chen Shoupeng Song Jian Xiu Wang Ping Yang 《Environmental Earth Sciences》2012,66(7):1809-1816
Since the mid-1990s, multi-storied buildings, high-rise buildings and skyscrapers have been emerging due to the new round of great-scale development on the soft-soil littoral. Land subsidence in soft-soil areas caused by engineering environmental effect, especially by construction of high-dense building groups, attracts more and more attention. The plot ratio may be one of the most important factors on engineering-induced land subsidence. Thus, three geotechnical centrifugal model tests were conducted under three conditions of different plot ratios to study the ground settlement mechanism of high-dense building groups in soft-soil territory. It is concluded that the subsidence superimposition effect is obvious in the central area of high-dense building groups; the settlement increases with the growth of plot ratio. The urban planning department should take this subsidence situation into account when determining the construction plot ratio to utilize the earth more aptly and safely. 相似文献
2.
Centrifuge modeling of land subsidence caused by the high-rise building group in the soft soil area 总被引:1,自引:1,他引:0
With the increase of the high-rise buildings, land subsidence induced by human activities becomes a major problem. Land subsidence
occurs slowly, but the accumulation results in the cracks in the road, the damage to the pipelines and in the tilting or the
cracking of the buildings. With the withdrawal of groundwater controlled reasonably, the engineering-environmental effect
of the dense high-rise building group comes to be the main cause of land subsidence. Based on the high-rise building group
in the soft soil area in Shanghai, the mechanism of land subsidence is studied in this paper by the centrifuge model tests.
The central area of the building group has larger subsidence and the subsidence superimposition effect is obvious. It can
exceed the allowance and cause land subsidence hazard. The land subsidence affected by the different building distances is
also studied. For smaller building distances, the subsidence superimposition effect is more obvious. The larger excess pore
water pressure in the pile-base supporting layer of the central area shows that the stress superimposition effect is larger.
The earth pressure under the buildings fluctuates by the disturbance of the pile tips. 相似文献
3.
针对地下空间开发中深基坑减压降水地面沉降发育特征、沉降机制及防治对策等研究进展,以上海市为例,总结了近年来滨海地区深基坑减压降水地面沉降研究取得的主要成果。建立了深基坑减压降水地面沉降防治综合分区方法,探索了深基坑减压降水地面沉降防治原型试验设计方法,掌握了上海市浅部承压含水层深基坑减压降水地面沉降规律,提出了深基坑减压降水地面沉降-地下水位双控模式及控制指标,提出了深基坑减压降水地面沉降防治措施,构建了深基坑减压降水地面沉降管控体系。这些研究成果在特大型城市安全管理、重大市政工程建设及运营服务中得到应用,对同类地区地面沉降研究和防治工作具有借鉴意义。 相似文献
4.
上海市地面沉降动态分析与灰色预测 总被引:2,自引:0,他引:2
本文应用灰色系统理论的关联度分析法,分析了上海市地面沉降在时间、空间上的变化特征,进而以市区和近郊区典型地段的地面沉降监测资料为基础,建立了灰色预测模型,并在某些假定前提下预测了上海市地面最终沉降量及“沉降寿命”。 相似文献
5.
20世纪90年代上海中心城区的地面沉降在地下水开采量没有增加的情况下出现了新一轮的增长。与此同时,上海进行了大规模的城市化建设。通过对中心城区地面沉降量与工程建设进行相关性分析发现,近年来中心城区的地面沉降量与工程建设具有相关性。目前城市化建设引起地面沉降的现象已受到关注,但尚缺乏对城市化进程引起地面沉降机制的系统研究。针对上海市城市化进程引起地面沉降的因素进行分析探讨,城市化进程引起的沉降包括建筑物荷载及交通荷载等外荷载引起的沉降,基坑开挖、降水及隧道施工等工程施工引起的土体压缩,以及隧道渗漏,周边地区对地下水补给量的减小,地下构筑物挡水效应等引起的地下水位持续下降而诱发的沉降 相似文献
6.
Jichun Wu Xiaoqing Shi Yuqun Xue Yun Zhang Zixin Wei Jun Yu 《Environmental Geology》2008,55(8):1725-1735
Land subsidence in China occurs predominantly in 17 provinces (cities) situated in the eastern and middle regions of the country,
including Shanghai, Tianjin and Jiangsu, and Hebei provinces. It is primarily caused by groundwater overpumping. One of the
areas most severely affected by land subsidence is the Yangtze Delta, most of which consists of Shanghai City, the Su-Xi-Chang
area (Suzhou, Wuxi and Changzhou cities) of Jiangsu Province, and the Hang-Jia-Hu area (Hangzhou, Jiaxing and Huzhou cities)
of Zhejiang Province. The excessive exploitation of groundwater forms in a large regional cone of depression and, consequently,
land subsidence is also regional, currently centered in the Shanghai and Su-Xi-Chang areas. In 2002, the maximum cumulative
subsidence of Shanghai, Su-Xi-Chang and Hang-Jia-Hu were 2.63 m, 2.00 and 1.06 m, respectively. The land subsidence area is
continuing to expand throughout the Yangtze Delta. To study the characteristics and the pattern of this land subsidence, the
government has implemented a monitoring system involving the placement of 37 groups of extensometers (layers marks) and drilling
of more than 1000 observation wells. These provide an invaluable historical record of deformation and pore water pressure
and facilitate studies on the special features of soil deformation when the groundwater level changes due to pumping. Several
measures have been taken in recent years to control the development of the land subsidence in the different areas; these include
groundwater injection, prohibition of pumping deep confined groundwater, and an adjustment of the pumping depth and magnitude
of the groundwater withdrawn. At present, although the subsidence area is still increasing slowly, the subsidence rate is
controlled. 相似文献
7.
中国地面沉降及其需要解决的几个问题 总被引:46,自引:2,他引:46
我国地面沉降主要出现在东、中部17个省市,总面积超过5×104km2,同时在17个省市出现成因上与它有关的地裂缝,危害是多方面的。沉降发生在经济高速发展的东部地区,造成的危害和损失也更大。我国地面沉降有下列特点:过量开采地下水是主要原因;各土层变形量既与其压缩性有关,也与它本身的厚度有关;砂土变形基本特征是压缩过程中总的应力与应变关系为非线性,压缩变形以塑性变形为主并包含有蠕变;水位恢复到开采前水平,沉降仍在继续,存在滞后等。从目前研究,特别是模拟研究的现状出发,指出存在8个方面的不足,进而提出需要研究解决的6个科学问题,为提高我国的研究水平献策。 相似文献
8.
9.
The state of land subsidence and prediction approaches due to groundwater withdrawal in China 总被引:13,自引:6,他引:7
This article gives a general introduction to land subsidence with the prediction approaches due to withdrawal of groundwater
in three subsided/subsiding regions in China: the deltaic plain of Yangtse River (YRDP), North China Plain (NCP), and Fenwei
Plain (FP). On YRDP, Shanghai is the typical subsided/subsiding city; on NCP Tianjin is the typical subsided/subsiding city,
and on FP Taiyuan is the typical subsided/subsiding city. The subsided area with subsidence over 200 mm on YRDP is about 10,000 km2 and the maximum subsided value reached 2.9 m at Shanghai; on NCP the subsided area reached 60,000 km2 with the maximum subsidence of 3.9 m at Tianjing; on FP the subsided area is relatively smaller than that on the other two
plains and is about 1,135 km2 with maximum subsidence of 3.7 m at Taiyuan city. In order to protect the civil and industrial facilities, it is necessary
to predict the future development of land subsidence based on present state. Many researchers proposed several approaches
to predict the land subsidence due to groundwater withdrawal according to different geological conditions and groundwater
withdrawal practice. This article classifies these approaches into five categories: (i) statistical methods; (ii) 1D numerical
method; (iii) quasi-3D seepage model; (iv) 3D seepage model; (v) fully coupled 3D model. In China, the former four categories
are presently employed in the prediction practice and their merits and demerits are discussed. According to the prediction
practice, 3D seepage model is the best method presently. 相似文献
10.
基于Morlet小波技术的北京平原地面沉降周期性分析 总被引:1,自引:0,他引:1
北京市地面沉降自20世纪60年代发现以来一直呈快速发展的趋势。不均匀地面沉降导致建筑物开裂、地基下沉,损害地下管道工程等基础设施,威胁城市安全。为了研究地面沉降发展的特征,分析其演化趋势,本文选取2011—2014年的27景Radarsat-2数据,采用干涉点目标分析技术,获取该时段北京平原区地面沉降时序监测信息;在此基础上,结合Morlet小波分析方法,根据相干点密度差异选取4个典型地面沉降区,分析其地面沉降多尺度演变特征。结果表明:地面沉降速率在空间分布上存在差异性,最大沉降速率为162.70 mm/a,年均沉降速率50.08 mm/a;地面沉降在时间域具有明显的局部周期性变化特征。在28 T (1 T表示1个24 d的时间段)的时间尺度下,存在着约13.3月的时间周期,不同位置还存在不同的不稳定震荡周期。 相似文献
11.
Application of grey theory-based model to prediction of land subsidence due to engineering environment in Shanghai 总被引:7,自引:0,他引:7
Yi-Qun Tang Zhen-Dong Cui Jian-Xiu Wang Li-Ping Yan Xue-Xin Yan 《Environmental Geology》2008,55(3):583-593
Land subsidence is a common geological hazard. The long-term accumulation of land subsidence in Shanghai has caused economic
loss to the city. Since the 1990s, the engineering structures have become a new cause of land subsidence. Many factors affect
the process of land subsidence. Although such a process cannot be explicitly expressed by a mathematical formula, it is not
a “black box” whose internal structure, parameters, and characteristics are unknown. Therefore, the grey theory can be applied
to the prediction of land subsidence and provides useful information for the control of land subsidence. In this paper, a
grey model (GM) GM (1, 1) with unequal time-intervals was used to predict the subsidence of a high-rise building in the Lujiazui
area of Shanghai, and the results were compared with the monitored data. The prediction of subsidence was also corroborated
by laboratory tests and the results were compared with measured data and the predicted data by the adaptive neuro-fuzzy inference
system (ANFIS). It is found that the GM (1, 1) with unequal time-intervals is accurate and feasible for the prediction of
land subsidence. 相似文献
12.
雄安新区地上地下工程建设适宜性一体化评价 总被引:3,自引:0,他引:3
为支撑雄安新区总体规划编制,2017年6月至8月,中国地质调查局在雄安新区组织实施了大规模工程地质勘察工作。以典型示范区为例,探索了地上地下工程建设适宜性一体化评价方法,并利用该方法对雄安新区全区进行了评价。结果显示:雄安新区建设场地稳定性较好,稳定场地和基本稳定场地占89.5%;雄安新区工程建设适宜性好,全区均适宜或较适宜工程建设,平均深度15~20 m、35~45 m、55~70 m的3段地层土体承载力普遍较高,可优先作为多层、高层、超高层建筑物复合地基或桩基的桩端持力层;雄安新区起步区地下空间开发利用条件优越,建议将70 m以浅地下空间分3层进行规模化开发利用,充分开发利用30 m以浅的浅层地下空间,适度开发利用30~50 m次深层地下空间,超前规划利用50~70 m深层地下空间;建议加强地下空间开发与浅层地热能开发利用的统筹协调。局部存在地面沉降、地裂缝、砂土液化、软弱土等不良工程地质问题,在控制性详细规划和岩土工程勘察中应加以重视。 相似文献
13.
14.
阜阳市作为地面沉降的典型城市,近年来,地面沉降已成为阻碍城市发展的重要地质环境问题。研究结合阜阳市现行地质条件,从地面沉降现状、自然因素与人类活动三个方面建立适用于阜阳市的地面沉降危险性评价指标体系,从地面高程、人口密度、单位面积GDP、工程重要性分布4个方面建立易损性评价指标体系共同组建风险性评价指标体系,引入层次分析法-综合指数法完成阜阳市地面沉降风险评价。依据评价结果提出针对性防控建议,取得的研究成果可为阜阳市国土空间开发规划与社会经济发展提供地学依据。 相似文献
15.
Grout injection into bed separation to control surface subsidence during longwall mining under villages: case study of Liudian coal mine,China 总被引:2,自引:0,他引:2
Surface subsidence can cause many environmental problems and hazards (including loss of land area and damage to buildings), and such hazards are particularly serious in coal mining districts. Injecting grout into the bed separation in the overburden has been proposed as an effective control measure against surface subsidence during longwall mining. However, no field trials of this technique have been implemented in mines under villages in China, and thus, its ability to control subsidence in such areas has yet to be demonstrated. In this study, field trials using this technique were carried out during longwall mining under villages in the Liudian coal mine, China. The maximum surface subsidence observed after the extraction was only 0.298 m, which accounts for 10 % of the mining height and is 79 % less than the predicted subsidence. Moreover, no damage occurred to the village buildings either during or after extraction and these buildings remain stable. Thus, this study represents the first successful attempt to control surface subsidence under villages in China using grout injection during longwall mining. 相似文献
16.
17.
湛江市区地面沉降自20世纪80年代发生以来,随着地下水开采深度的增加,地面已出现了不同程度的沉降,影响了社会的稳定和经济的可持续发展。文章根据多年来的地面沉降与地下水动态监测、调查成果,对湛江市区滨海平原地面沉降历史与现状、地面沉降基本规律进行总结,提出了地面沉降防治措施建议,为地方制定水资源规划和地下水资源的管理决策提供科学依据。 相似文献
18.
地面沉降是福州市的主要地质灾害之一,自20世纪中期以来就有监测资料显示福州市存在地面沉降问题。本文基于永久散射体雷达干涉测量技术(IPTA),处理了福州市2008~2014年间多时相、高分辨率TerraSAR-X数据,对福州市6年时间的地面沉降进行监测分析,根据研究区地面沉降历史、建设发展现状及沉降异常区分布,着重分析了复杂因素影响下福州市地面沉降的时空变化规律。结果表明:福州市总体年均沉降率-15 mm ·a-1左右,存在多个明显的快速沉降区;与1960~1990年的监测资料对比发现,沉降中心由地热温泉区向工程密集建设区转移;较大沉降区以快速线性沉降为主;地面沉降特征的变化受到多种复杂因素叠加影响,导致地面沉降空间扩张、速率加剧。该研究成果可为福州市或其他沿海城市地面沉降风险评估、地面沉降防控等提供一定的科学依据和参考。 相似文献
19.
为了准确模拟评价沧州市地下水开采对地面沉降的影响,为沧州市政规划和地下水资源管理提供决策依据,基于比奥固结理论,建立了地下水开采与地面沉降三维全耦合数学模型。在对模型进行识别和校正的基础上,模拟预测了在地下水现状开采情况下,从2010年12月31日至2025年12月31日逐年的地面沉降变化趋势,并根据地面沉降速率对地面沉降进行了地质灾害预警分区。结果表明,到2025年12月31日,沧州市累计最大地面沉降量为466.82 mm,最小地面沉降量为241.54 mm,大部分地区为四级预警区和五级预警区,仅肃宁县为三级预警区。 相似文献
20.
Monitoring land subsidence in Semarang,Indonesia 总被引:1,自引:0,他引:1
Semarang is one of the biggest cities in Indonesia and nowadays suffering from extended land subsidence, which is due to groundwater
withdrawal, to natural consolidation of alluvium soil and to the load of constructions. Land subsidence causes damages to
infrastructure, buildings, and results in tides moving into low-lying areas. Up to the present, there has been no comprehensive
information about the land subsidence and its monitoring in Semarang. This paper examines digital elevation model (DEM) and
benchmark data in Geographic Information System (GIS) raster operation for the monitoring of the land subsidence in Semarang.
This method will predict and quantify the extent of subsidence in future years. The future land subsidence prediction is generated
from the expected future DEM in GIS environment using ILWIS package. The procedure is useful especially in areas with scarce
data. The resulting maps designate the area of land subsidence that increases rapidly and it is predicted that in 2020, an
area of 27.5 ha will be situated 1.5–2.0 m below sea level. This calculation is based on the assumption that the rate of land
subsidence is linear and no action is taken to protect the area from subsidence. 相似文献