3D Numerical modelling of tunnelling intersecting piles

Tunnelling beneath existing buildings supported by large numbers of piles is a three-dimensional (3D) soil-structure interaction problem. 3D finite element analyses (FEA) have been carried out to model construction of a 6 m diameter tunnel intersecting the lower portion of a building piled foundation system comprising 50 nos. of 0.6 m diameter, 21.5 m long friction piles. A total of 15 obstructing pile toes are cut off. A step-by-step pressure method is used to model the progressive advance of tunnelling. Two parametric study analyses are carried out to investigate the effects of the upper half of and a full 3 m thick grouted annulus around the tunnel. Results are presented for the responses of selected piles and building settlements. Both grouting schemes are found to be effective in reducing tunnelling-induced ground movements.