Coupling of CFD software for the computation of unsteady compressible flows in tunnel networks

Coupling of CFD software for the computation of unsteady compressible flows in tunnel networks

A coupled 1D/3D flow solver is developed for tunnel airflow simulations starting from existing 1D and 3D codes: the 3D solver is used around the domain to be studied where a detailed analysis is necessary (i.e. fire smoke propagation, pressure fields around a train). The inflow and outflow boundary conditions for the 3D solver are given by the 1D solver which includes the whole tunnel network with shafts, by-passes, possible other vehicles, etc. Such a tool can be profitably exploited in the design phase of underground metro lines, railway and road tunnels in order to assess aerodynamics, ventilation, thermal and fire issues.

A coupled 1D/3D flow solver is developed for tunnel airflow simulations starting from existing 1D and 3D codes: the 3D solver is used around the domain to be studied where a detailed analysis is necessary (i.e. fire smoke propagation, pressure fields around a train). The inflow and outflow boundary conditions for the 3D solver are given by the 1D solver which includes the whole tunnel network with shafts, by-passes, possible other vehicles, etc. Such a tool can be profitably exploited in the design phase of underground metro lines, railway and road tunnels in order to assess aerodynamics, ventilation, thermal and fire issues.