Application of Electrical Resistivity Imaging and Land Surveying in the Analysis of Underground Construction Impact on the Warsaw Scarp

IF 0.6 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Ł. Kaczmarek, R. Mieszkowski, M. Woźniak, Tomasz Dybciak
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引用次数: 2

Abstract

Abstract The paper presents the analysis of the II Underground Line construction’s impact on the Warsaw Scarp with the use of the electrical resistivity imaging (ERI, also known as the electrical resistivity tomography) and further total station position measurements.The underground passes under the scarp perpendicular in the area of Dynasy Street 6, in Down-town district.The electrical resistivity imaging was performed for recognition of the geological structure and a potential land slide surface or zone.The gradient system was used during the prospection. In these analyses, the longitudinal section was 40 m long, and the depth of survey amounted to 6 m. In the case of the 200 m long transverse section, the resulted depth of survey was 30 m.The geophysical image of the longitudinal section,does not contain loosening soil zones,which could indicates lip surface.Next, total station measurements, which were tied to the archival geodetic observations’ results, were carried out. The aim of the measurements was to verify the activity of the horizontal and vertical displacements. The TBM excavation process led to summary vertical displacements up to approx. 24 mm and horizontal displacements amounting to approx. 13 mm. To sum up, the current land surveys reveals minor under ground line’ s construction impact on the scarp displacement. Nevertheless, the sensitive urban environment requires further monitoring, especially that the operation loads can result in displacement rate change.
电阻率成像与土地测量在华沙断崖地下工程影响分析中的应用
摘要本文利用电阻率成像(ERI,又称电阻率层析成像)和全站仪位置测量,分析了II号地下线路建设对华沙断坡的影响。地下通道位于市中心王朝街6号垂直的陡坡下。利用电阻率成像技术识别地质构造和潜在的滑坡面或滑坡带。在找矿过程中采用了梯度系统。在这些分析中,纵剖面长40 m,测量深度为6 m。以200 m的横断面为例,测量深度为30 m。纵剖面的地球物理图像,不包含松动土带,可能是唇面。接下来,进行了与大地测量档案结果相联系的全站仪测量。测量的目的是验证水平和垂直位移的活动。TBM开挖过程导致总垂直位移高达约。24毫米和水平位移,总计约。13毫米。综上所述,目前的土地调查显示,地下线路的建设对陡坡位移的影响较小。然而,敏感的城市环境需要进一步监测,特别是运行负荷可能导致位移率变化。
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来源期刊
Studia Quaternaria
Studia Quaternaria GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
0.00%
发文量
0
期刊介绍: Studia Quaternaria is designed to publish scientific works concerning the Quaternary, on local, regional and global scale. Studia Quaternaria is interested in all fields of research dealing with stratigraphy and reconstruction of the past environments, including palaeogeography, palaeoecology, palaeoclimatology, palaeohydrology etc. The journal is also open to studies of natural environmental processes, and to recognition of mechanisms involved in the dynamics of our environment. The clue is that the Quaternary is still ongoing and vivid, and understanding of its past and present development support each other.
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