Abstract
Zhengzhou is a second-tier cities in P. R. China and is just located at Yellow River alluvial landforms where the soils are divided into four strata combinations of flood alluvial deposit based on the lithology, sedimentary environment and geomorphic units. Zijingshan Station is one of the most important stations of the total subway lines in Zhengzhou, the first and second subway lines join together at Zijingshan Station, the transfer station foundation pit has the maximum depth of 31.2 m under the ground surface and is now the deepest one in Henan Province that Zhengzhou is belonged to, and so to monitor and analyze the environmental effects induced by this type of deep foundation pit excavation is necessary and important for the foundation pits of similar deep subway stations and buildings in future. During Zijingshan Station foundation pit excavation and main station structure construction, water tables, settlements and lateral deformations around the transfer section and standard section were all measured and analyzed in time, and some conclusions are drawn out, which are that (1) the water tables are controlled to be stable when artificial ground freezing was adopted and the stable changing ratios are all <0.7 mm/day, (2) the maximum ground settlement is not adjacent to the underground continuous walls but at the overpass bridge pier with a certain distance away from the foundation pit edge, which is seriously affected by both large traffic flows and foundation pit excavation, (3) the maximum lateral deformations of the standard section are focused at the position of about 3.0 m under the ground surface, while those of the transfer section are at about 11.0 m under the ground surface; (4) the measured and monitored items such as stable water table decreasing ratio, maximum settlements and lateral deformations all meet with the local building foundation specifications. The first subway line of Zhengzhou that contains Zijingshan Station has been put to use, the environmental effects caused by foundation pit excavation are all controlled to be stable until now, and so underground continuous walls and horizontal supports are the prior selection for the deep foundation pit in Yellow River alluvial landforms.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bi JH, Liu W, Jiang ZF (2006) Analysis of effects of tunnel excavation on underground pipeline. Rock Soil Mech 27(8):1317–1321 (in Chinese)
Cai JP, Huang MS, Qian JG et al (2010) DCFEM method for analyzing the influence of deep excavation on adjacent underground pipelines. Chin J Undergr Space Eng 6(1):120–124 (in Chinese)
Chang CT, Sun CW, Duann SW et al (2001) Response of a Taipei rapid transit system (TRTS) tunnel to adjacent excavation. Tunn Undergr Space Technol 16(3):151–158
Cheng CY, Dasari GR, Chow YK et al (2007) Finite element analysis of tunnel–soil–pile interaction using displacement controlled model. Tunn Undergr Space Technol 22(4):450–466
Du JL, Yang M (2008) Time effect analysis of influence of excavation on adjacent pile foundations. Chin J Geotech Eng 30(7):1038–1043 (in Chinese)
Du ZL, Huang MS, Li Z (2009) DCM-based on ground loss for response of group piles induced by tunneling. Rock Soil Mech 30(10):3043–3047 (in Chinese)
Fang Y, He C (2007) Numerical analysis of effects of parallel shield tunneling on existent tunnel. Rock Soil Mech 28(7):1402–1406 (in Chinese)
Gao XJ (2012) Discussing about environmental geotechnical of foundation pit excavation. Coal Technol 31(8):232–233 (in Chinese)
GB50007-2011 (2011) Code for design of building foundation. China Building Industry Press, Beijing (in Chinese)
Hsieh PG, Ou CY (1998) Shape of ground surface settlement profiles caused by excavation. Can Geotech J 35(6):1004–1017
Kog YC (2010) Buried pipeline response to braced excavation movements. J Perform Constr Facil 24(3):235–241
Lee GTK, Ng CWW (2005) Effects of advancing open face tunneling on an existing loaded pile. J Geotech Geoenviron Eng 131(2):193–201
Leung EHY, Ng CWW (2007) Wall and ground movements associated with deep excavations supported by cast in situ wall in mixed ground conditions. J Geotech Geoenviron Eng 133(2):129–143
Roboski J, Finno RJ (2006) Distributions of ground movements parallel to deep excavations in clay. Can Geotech J 43(1):43–58
Son M, Coording EJ (2005) Estimation of building damage due to excavation-induced ground movements. J Geotech Geoenviron Eng 131(2):162–177
Son M, Cording EJ (2010) Responses of buildings with different structural types to excavation-induced ground settlements. J Geotech Geoenviron Eng 137(4):323–333
Wang JH, Xu ZH, Wang WD (2010) Wall and ground movements due to deep excavations in shanghai soft soils. J Geotech Geoenviron Eng 136(7):985–994
Yang YH, Wang JJ, Wu JG et al (2008) Informationized construction monitoring analysis of deep foundation pit for Qiutao Road station of Hangzhou Metro. Chin J Geotech Eng 30(17):1550–1554 (in Chinese)
Zhang ZM, Zhao YB, Wu SM et al (2010) In-situ monitoring analysis of retaining structures of SMW piles plus steel support in deep foundation pit of a river-crossing tunnel. Chin J Rock Mech Eng 29(6):1270–1278 (in Chinese)
Zhang JX, Zhou JB, Wu DM (2012) Analysis of retaining structure deformation in super-deep foundation pit by top-down construction method. Build Struct 42(4):121–123 (in Chinese)
Zhou XM, Wang MS, Tao LG et al (2003) Model test and prototype observation on artificial ground freezing and tunneling of Beijing subway. Chin J Geotech Eng 25(6):676–679 (in Chinese)
Acknowledgments
This work is financially supported by Special Scientific Research Foundation for Young Teachers of Zhengzhou University (Grant No. 1421323078) and Scientific and Technological Research and Development Projects of China Construction Seventh Engineering Division Corp. Ltd. (Grant No. CSCEC7b-2015-Z-12).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Xu, P., Han, Y., Duan, H. et al. Environmental Effects Induced by Deep Subway Foundation Pit Excavation in Yellow River Alluvial Landforms. Geotech Geol Eng 33, 1587–1594 (2015). https://doi.org/10.1007/s10706-015-9918-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10706-015-9918-0