Construction of tunnels under the existing metro station

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In the context of the active development of the metro system, special attention is given to ensuring the safety of existing buildings and structures located in the construction impact zone. The construction of new tunnels near operational metro facilities may lead to undesirable deformations, including the subsidence of structures or rail threads. The aim of this study is to identify the key factors influencing the subsidence of the shallow station structure of the Moscow Metro during the construction of a tunnel using a tunneling boring machine (TBM) directly beneath it. The initial data are based on results from geotechnical monitoring, compared with the technological parameters of tunneling – the average ground support pressure at the face (p), the volume of ground output for installing one ring (vg), the volume of injected grout into annular void (vi) – as well as geometric characteristics (plan distance (r) and height (h) to the observation point) and the physical-mechanical properties of the soils. It was found that the most significant influence on the subsidence magnitude comes from the following parameters (in descending order of importance): r, vg, p, vi. Based on the identified factors, a subsidence forecasting model was constructed, explaining 90,9% of the sample variance and having a mean squared error (MSE) of 0,1353 mm2, which confirms its high predictive accuracy and its adequacy for practical application.

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作者简介

A. Ter-Martirosyan

National Research Moscow State University of Civil Engineering

编辑信件的主要联系方式.
Email: gic-mgsu@mail.ru

Doctor of Sciences (Engineering) 

俄罗斯联邦, 26, Yaroslavskoe Highway, Moscow, 129337

I. Isaev

Mosinzhproekt Institute

Email: IsaevIO@mosinzhproekt.ru

Director of Scientific and Technical Activities

俄罗斯联邦, 4/1, Sverchkov pereulok, Moscow, 101000

V. Rud

National Research Moscow State University of Civil Engineering

Email: RudVV@mgsu.ru

Candidate of Sciences (Engineering)

俄罗斯联邦, 26, Yaroslavskoe Highway, Moscow, 129337

P. Shishkina

National Research Moscow State University of Civil Engineering

Email: pshishkina638@gmail.com

Student

俄罗斯联邦, 26, Yaroslavskoe Highway, Moscow, 129337

参考

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  2. Huang C., Du H., Li L., Ni J., Sun Y. Application of tree-based methods in predicting the surface settlement arising from the tunnel excavation with large mix-shield. Soils and Foundations. 2023. Vol. 63. Iss. 6, p. 101379. EDN: LPAXRY. https://doi.org/10.1016/j.sandf.2023.101379
  3. Hussaine S.M., Mu L. Intelligent prediction of maximum ground settlement induced by EPB shield tunneling using automated machine learning techniques. Mathematics. 2022. Vol. 10 (24), p. 4637. EDN: JISZPG. https://doi.org/10.3390/math10244637
  4. Baghbani A., Baghbani H., Shalchiyan M.M., Kiany K. Utilizing artificial intelligence and finite element method to simulate the effects of new tunnels on existing tunnel deformation. Journal of Computational and Cognitive Engineering. 2022. Vol. 3 (2), pp. 166–175. https://doi.org/10.47852/bonviewJCCE2202307
  5. Liu Y., Li Y., Chen G., Li Y., Li J., Jin J. Theoretical analysis of surface settlement during parallel construction of a double-track tunnel with small spacing. Buildings. 2025. Vol. 15 (7), p. 1143. https://doi.org/10.3390/buildings15071143
  6. Zhang M., Li S., Li P. Numerical analysis of ground displacement and segmental stress and influence of yaw excavation loadings for a curved shield tunnel. Computers and Geotechnics. 2020. Vol. 118, p. 103325. https://doi.org/10.1016/j.compgeo.2019.103325
  7. Ter-Martirosyan A.Z., Cherkesov R.H., Isaev I.O., Rud V.V., Ambrushkevich M.I. Determination of boundaries parameters of the computational model for assessing the impact on the surrounding facilities from tunneling. International Journal for Computational Civil and Structural Engineering. 2023. Vol. 19. No. 2, pp. 95–108. EDN: PYUXNX. https://doi.org/10.22337/2587-9618-2023-19-2-95-108
  8. Ter-Martirosyan A.Z., Anzhelo G.O., Rud V.V. The influence of metro tunnel construction parameters on the settlement of surrounding buildings. Applied Sciences. 2024. Vol. 14 (15), p. 6435. EDN: ETYWAV. https://doi.org/10.3390/app14156435

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2. Fig. 1. Cross-section of an operational metro station under which tunnel construction is being carried out

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3. Fig. 2. Plan of the designed tunnels and the existing station with geotechnical monitoring marks

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4. Fig. 3. Comparison of actual and predicted values for determining the structure’s deflection over one monitoring cycle (ΔS)

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5. Fig. 4. Correlation matrix heatmap

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