[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/gae.2018.16.3.295

2D numerical investigation of twin tunnels-Influence of excavation phase shift

Djelloul, Chafia (Department of Civil Engineering, Faculty of Technology, Batna 2 University)
Karech, Toufik (Department of Civil Engineering, Mohamed El Bachir El Ibrahimi University)
Demagh, Rafik (Department of Civil Engineering, Mohamed El Bachir El Ibrahimi University)
Limam, Oualid (Laboratory of Civil Engineering, University of Tunis El Manar, National Engineers School of Tunis)
Martinez, Juan (Laboratoire GCGM, National Institute of Applied Sciences)

Publication Information

Geomechanics and Engineering / v.16, no.3, 2018 , pp. 295-308 More about this Journal

Abstract

The excavation of twin tunnels is a process that destabilizes the ground. The stability of the tunnel lining, the control of ground displacements around the tunnel resulting from each excavation and the interaction between them must be controlled. This paper provides a new approach for replacing the costly 3D analyses with the equivalent 2D analyses that closely reflects the in-situ measurements when excavating twin tunnels. The modeling was performed in two dimensions using the FLAC2D finite difference code. The three-dimensional effect of excavation is taken into account through the deconfinement rate ${\lambda}$ of the soil surrounding the excavation by applying the convergence-confinement method. A comparison between settlements derived by the proposed 2D analysis and the settlements measured in a real project in Algeria shows an acceptable agreement. Also, this paper reports the investigation into the changes in deformations on tunnel linings and surface settlements which may be expected if the twin tunnels of T4 El-Harouche Skikda were constructed with a tunneling machine. Special attention was paid to the influence of the excavation phase shift distance between the two mechanized tunnel faces. It is revealed that the ground movements and the lining deformations during tunnel excavation depend on the distance between the tunnels' axis and the excavation phase shift.

Keywords

tunnel; interaction; numerical-simulation; convergence-confinement; excavation phase shift;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Addenbrooke, T.I. and Potts, D.M. (2001), "Twin tunnel interaction:surface and subsurface effects", Int. J. Geomech., 1(2), 249-271. DOI
2	Carranza-Torres, C. and Fairhurst, C. (2000), "Method of tunnel design to rock masses that satisfy the Hoek-Brown failure criterion", Tunn. Undergr. Sp. Technol., 15(2), 187-213.
3	Chapman, D.N., Ahn, S.K., Hunt, D.V.L. and Chan, A.H.C. (2006), "The use of model tests to investigate the ground displacements associated with multiple tunnel construction in soil", Tunn. Undergr. Sp. Technol., 21(3), 413. DOI
4	Chen, R.P., Zhu, J., Liu, W. and Tang, X.W. (2011), "Ground movement induced by parallel EPB tunnels in silty soils", Tunn. Undergr. Sp. Technol., 26(1), 163-171. DOI
5	Choi, J.I. and Lee, S.W. (2010), "Influence of existing tunnel on mechanical behavior of new tunnel", KSCE J. Civ. Eng., 14(5), 773-783. DOI
6	Dar Al-Handasah Shair and Partners. (2008), Rapports Techniques, Autoroute Est-Ouest, Lot Unique Est,Mise a Niveau des Etudes APD Etapes 2-Finale, Travaux Civils des Tunnels, Rapport de Presentation -Lot Tunnel.
7	Divall, S., Goodey, R.J. and Taylor, R.N. (2014), "The influence of a time delay between sequential tunnel constructions", Proceedings of the 8th International Conference on Physical Modelling in Geotechnics, Perth, Australia, January.
8	Do, N.A., Dias, D., Oreste, P.P. and Djeran-Maigre, I. (2014a), "Three-dimensional numerical simulation of a mechanized twin tunnels in soft ground", Tunn. Undergr. Sp. Technol., 42, 40-51. DOI
9	Do, N.A., Dias, D. and Oreste, P.P. (2016), "3D Numerical investigation of mechanized twin tunnels twin tunnels in soft ground-influence of lagging distance between two tunnel faces", Eng. Struct., 109, 117-125. DOI
10	Do, N.A., Dias, D., Oreste, P.P. and Djeran-Maigre, I. (2013), "Comparison between design methods applied to segmental tunnel linings", Geotech. Eng., 45(3), 64-70.
11	Do, N.A., Dias, D., Oreste, P.P. and Djeran-Maigre, I. (2014b), "2D numerical investigations of twin tunnel interaction", Geomech. Eng., 6(3), 263-275. DOI
12	Fang, Q., Tai, Q., Zhang, D. and Wong, L.N.Y. (2016), "Ground surface settlements due to construction of closely-spaced twin tunnels with different geometric arrangements", Tunn. Undergr. Sp. Technol., 51, 144-151.
13	Do, N.A., Dias, D., Oreste, P.P. and Djeran-Maigre, I. (2014c), "2D Tunnel numerical investigation: The influence of the simplified excavation method on tunnel behaviour", Geotech. Geol. Eng., 32(1), 43-58. DOI
14	Do, N.A., Dias, D., Oreste, P.P. and Djeran-Maigre, I. (2014d), "Internal forces in segmental tunnel linings-A comparison between current design methods", J. Min. Sci., 50(2), 326-334. DOI
15	Elsamny, M.K., Ibrahim, M.A., Kotb, M.H. and Attia, M.G. (2016), "Analysis of two adjacent circular tunnels in soft clay soil", Egypt. Int. J. Eng. Sci. Technol., 5(4), 749-755.
16	Fu, J., Yang, J., Yan, L. and Abbas, S.M. (2015), "An analytical solution for deforming twin parallel tunnels in an elastic half plane", Int. J. Numer. Anal. Meth. Geomech., 39(10), 524-538.
17	Hansmire, W.H., Romero, V.S. and McRae, M.T. (2004), "Multiple tunnels in soil with shotcrete linings on Tren Urbano, San Juan, Puerto Rico", Proceedings of the 5th International Conference on Case Histories in Geotechnical Engineering, New York, U.S.A., April.
18	Chehade, F.H. and Shahrour, I. (2008), "Numerical analysis of the interaction between twin-tunnels: Influence of the relative position and construction procedure", Tunn. Undergr. Sp. Technol., 23(2), 210-214. DOI
19	Hajihassani, M., Marto, A., Makhtar, A.M. and Kasim, F. (2014), "A review on the laboratory model tests of tunnels in soft soils", Malay. J. Civ. Eng., 26(1), 89-98.
20	Hamrouni, A., Dias, D. and Sbartai, B. (2017), "Reliability analysis of shallow tunnels using the response surface methodology", Undergr. Sp., 2(4), 246-258. DOI
21	Janin, J.P. (2012), "Tunnels en milieu urbain: Previsions des tassements avec prise en compte des effets des presoutenements (Renforcement du front de taille et vouteparapluie", Ph.D. dissertation, Ecole doctorale MEGA de Lyon, Lyon, France.
22	Hasanpour, R., Chakeri, H., Ozcelik, Y., Denek, H. (2012), "Evaluation of surface settlements in the Istanbul metro in terms of analytical, numerical and direct measurements", Bull. Eng. Geol. Environ., 71(3), 499-510. DOI
23	He, C., Feng, K., Fang, Y. and Jiang, Y.C. (2012), "Surface settlement caused by twin-parallel shield tunnelling in sandy cobble strata", J. Zhejiang Univ. Sci. A Appl. Phys. Eng., 13(11), 858-869.
24	Hejazi, Y., Daniel, D. and Kastner, R. (2008), "Impact of constitutive models on the numerical analysis of underground constructions", Acta Geotech., 3(4), 251-258. DOI
25	Liu, H.Y., Small, J.C. and Carter, J.P. (2008), " Full 3D modelling for effects of tunnelling on existing support systems in the Sydney region", Tunn. Undergr. Sp. Technol., 23(4), 399-420.
26	Janin, J.P., Dias, D., Kastner, R., Emeriault, F., Le Bissonnais, H. and Guillou, A. (2013), "South toulon tube: Numerical back-analysis of in situ measurements", Plaxis Bull., 33, 10-13.
27	Karakus, M. (2007), "Appraising the methods accounting for 3D tunnelling effects in 2D plane strain FE analysis", Tunn. Undergr. Sp. Technol., 22(1), 47-56.
28	Kim, S.H., Burd, H.J. and Milligan, G.W.E. (1998), "Model testing of closely spaced tunnels in clay", Geotechnique, 48(3), 375-388. DOI
29	Mazek, S.A. (2011), "3-D Nonlinear numerical analysis to study the performance of twin tunnel system", Proceedings of the Pan-Am CGS Geotechnical Conference, Toronto, Canada, October.
30	Mirhabibi, A. and Soroush, A. (2012), "Effects of surface buildings on twin tunnelling-induced ground settlements", Tunn. Undergr. Sp. Technol., 29, 40-51. DOI
31	Shahin, H.M., Nakai, T., Ishii, K., Iwata, T. and Kuroi, S. (2016), "Investigation of influence of tunneling on existing building and tunnel: Model tests and numerical simulations", Acta Geotech., 11(3), 679-692. DOI
32	Mousivand, M., Maleki, M., Nekooei, M. and Mansoori, M.R. (2017) "Application of convergence-confinement method in analysis of shallow non-circular tunnels", Geotech. Geol. Eng., 35(3), 1185-1198. DOI
33	Ng, C.W.W., Lee, K.M. and Tang, D.K.W. (2004), "Three-dimensional numerical investigations of new Austrian tunnelling method (NATM) twin tunnel interactions", Can. Geotech. J., 41(3), 523-539. DOI
34	Oreste, P.P. (2003), "Analysis of structural interaction in tunnels using the convergence-confinement approach", Tunn. Undergr. Sp. Technol., 18(4), 347-363.
35	Oreste, P.P. (2009), "The convergence-confinement method: Roles and limits in modern geomechanicaltunnel design", Am. J. Appl. Sci., 6(4), 757-771. DOI
36	Panet, M. and Guenot, A. (1982), "Analysis of convergence behind the face of a tunnel", Proceedings of the International Symposium, Tunnelling-82, Brighton, U.K., June.
37	Tafraouti, N., Benamar, R. and Lamdouar, N. (2016), "Study of the interaction between two parallel tunnels in the case where the second tunnel is excavated after the construction of the first tunnel", Int. J. Appl. Eng. Res., 11(21), 10624-10633
38	Wang, H.N., Zheng, G.S., Utili, S., Jiang, M.J. and Wu, L. (2017), "Analytical solutions of stresses and displacements for deeply buried twin tunnels in viscoelastic rock", Int. J. Rock Mech. Min. Sci., 93, 13-29. DOI
39	Zhang, C.P., Qin, S.P. and Yi, C. (2014), "Influential partition of adjacent tunnels construction for Beijing urban underground roads", E. J. G. E., 19(3), 10327-10337.
40	Zhang, W.G. and Goh, A.T.C. (2015), "Regression models for estimating ultimate and serviceability limit states of underground rock caverns", Eng. Geol., 188, 68-76. DOI
41	Zhang, W.G. and Goh, A.T.C. (2016), "Predictive models of ultimate and serviceability performances for underground twin caverns", Geomech. Eng., 10(2), 175-188. DOI