English

Improving competitive evacuations with a vestibule structure designed from panel-like obstacles

Physics and Society 2021-05-11 v1

Abstract

It has been shown that placing an obstacle in front of an exit door has proven to be a successful method to improve pedestrian evacuations. In this work, we will focus on the space limited by the exit and the obstacles (i.e. the vestibule structure). We analyzed two different types of vestibules: the two-entry vestibule (which consists of a single panel-like obstacle) and the three-entry vestibule (which consists of two panel-like obstacles). In the former, we studied the effects of varying the walls' friction coefficient κw\kappa_w and the distance from the obstacle to the exit door dd. In the latter, we varied the space between the two panels (gap). We found that the three above mentioned parameters control the vestibule's density, which subsequently affects the evacuation flow (fundamental diagram). We have also found that reducing the distance dd or increasing the friction facilitates the formation of blocking clusters at the vestibule entries, and hence, diminishes the density. If the density is too large or too low, the evacuation flow is suboptimal, whereas if the density is around 2±22 \pm 2, the flow is maximized. Our most important result is that the density (and therefore the evacuation flow) can be precisely controlled by κw\kappa_w, dd, and the gap. Moreover, the three-entry vestibule produced the highest evacuation flow for specific configurations of the gap and the distance from the panels to the door.

Cite

@article{arxiv.2105.03469,
  title  = {Improving competitive evacuations with a vestibule structure designed from panel-like obstacles},
  author = {I. M. Sticco and G. A. Frank and C. O. Dorso},
  journal= {arXiv preprint arXiv:2105.03469},
  year   = {2021}
}
R2 v1 2026-06-24T01:53:21.921Z