Title :
Numerical simulation of the flow around an ICE2 train under the influence of a wind gust
Author_Institution :
Dept. of Appl. Mech., Chalmers Univ. of Technol., Gothenburg
Abstract :
Flow around an ICE2 high-speed train exiting a tunnel under the influence of a wind gust has been studied using numerical technique called detached eddy simulation. A wind gust boundary condition was derived to approximate previous experimental observations. The body of the train includes most important details including bogies, plugs, inter-car gaps and rotating wheels on the rail. The maximal yawing and rolling moments which possibly can cause a derailment or overturning were found to occur when approximately one third and one half of the train, respectively, has left the tunnel. These are explained by development of a strong vortex trailing along the upper leeward edge of the train. All aerodynamic forces and moments were monitored during the simulation and the underlying flow structures and mechanisms are explained.
Keywords :
aerodynamics; rails; railway engineering; tunnels; vortices; wheels; wind; ICE2 high-speed train; aerodynamic forces; bogies; detached eddy simulation; rails; rolling moment; rotating wheels; tunnel; vortexes; wind gust boundary condition; yawing moment; Crosswind stability; detached eddy simulation; high-speed train; wind gust;
Conference_Titel :
Railway Engineering - Challenges for Railway Transportation in Information Age, 2008. ICRE 2008. International Conference on
Conference_Location :
Hong Kong
