A Study on Fire Characteristics in a Tall and Narrow Atrium

  • Sugawa, Osami (Center for Fire Science and Technology, Science University of Tokyo) ;
  • Takahashi, Wataru (Dai-Nippon Construction, Research and Development Section) ;
  • Ohtake, Masanori (Kajima Corporation (Graduate Student of Science University of Tokyo)) ;
  • Satoh, Hiroomi (Kajima Research Institute, Kajima Corporation)
  • Published : 1997.11.01

Abstract

The modeling on fire safety assessment for a tall and narrow atrium is carried out using a reduced and full scale atrium models based on the performances of flow behavior in and near comer fire and smoke ventilation system. The comer (or wall) effects on the flame behavior considering air entrainment into a flame was evaluated theoretically and experimentally. Temperature, upward velocity, inlet air velocity, and pressure difference between the atrium space and atmosphere were measured systematically in a reduced scale model. The performance of the modeling to estimate temperature rise and natural air ventilation volume was verified based on the experimental results. Smoke filling rate from a model fire source set at the center of a tall and narrow atrium is fastest in the other cases in which fire source set in or near a corner. This suggested that the centering of the fire source is acceptable as the fire source position to assess the fire safety design for a tall and narrow atrium.

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