Influence of subway train fire locations on the characteristics of smoke movement in a curved tunnel

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Abstract

Scenario models of a moving subway train can help investigate the influence of different fire locations on smoke propagation characteristics in curved tunnels. To this end, this study adopts the three-dimensional Unsteady Reynolds Average Navier-Stokes equations method and the renormalization group k-ε two-equation turbulence model with buoyancy correction for numerical analysis. The motion of the train is replicated using the slip grid technique. The results indicate that when a fire breaks out on a moving train in tunnels, the piston wind leads the longitudinal movement of the smoke. If a fire erupts in the head or middle car of a moving train, the time of smoke backflow is delayed by 30 s or 17 s, respectively, compared to that for the tail car. The obtained results provide a theoretical basis for reasonably controlling the smoke flow in subway tunnels and reducing casualties in fire accidents.

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Zhou, D., Li, J., Hu, T., & Chen, T. (2023). Influence of subway train fire locations on the characteristics of smoke movement in a curved tunnel. PLoS ONE, 18(1 January). https://doi.org/10.1371/journal.pone.0279818

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