Mechanical issues of noncircular and asymmetrical tunnelling can be estimated using complex variable method with suitable conformal mapping. Exsiting solution schemes of conformal mapping for noncircular tunnel generally need iteration or optimization strategy, and are thereby mathematically complicated. This paper proposes a new bidirectional conformal mapping for deep and shallow tunnels of noncircular and asymmetrical shapes by incorporating Charge Simulation Method. The solution scheme of this new bidirectional conformal mapping only involves a pair of linear systems, and is therefore logically straight-forward, computationally efficient, and practically easy in coding. New numerical strategies are developed to deal with possible sharp corners of cavity by small arc simulation and densified collocation points. Several numerical examples are presented to illustrate the geometrical usage of the new bidirectional conformal mapping. Furthermore, the new bidirectional conformal mapping is embedded into two complex variable solutions of noncircular and asymmetrical shallow tunnelling in gravitational geomaterial with reasonable far-field displacement. The respective result comparisons with finite element solution and exsiting analytical solution show good agreements, indicating the feasible mechanical usage of the new bidirectional conformal mapping.
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