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Numerical Simulation of Smoke Control in Underground Space

Author

Listed:
  • Hao-wei Yao
  • You-xin Li
  • Ke-feng Lv
  • Jin-guang Zhang
  • Zhong-bin Lv
  • Dong Wang
  • Zhen-yu Zhan
  • Xiao-ge Wei
  • Huai-tao Song
  • Heng-jie Qin
  • Lianhui Li

Abstract

As the underground space is relatively closed compared to other buildings, the space is hardly connected to the outside world through entrances and exits, which makes it difficult to ventilate and exchange heat with the outside. In this case, it is easy to cause a large number of casualties when a fire breaks out. When the fire happens smoke will be discharged merely by the mechanical exhaust, and air system should work simultaneously to replenish the oxygen inside. By setting four-group models, the paper analyzes the strategies for smoke extraction and air makeup in the underground construction. The paper points out that when the fire happens in a smoke bay, the neighborhood smoke extraction fan should be opened and the air makeup system should not be located at the top to disturb the smoke layer. By comparing and analyzing the performance of the smoke extraction and air conditioning system, the casualties caused by the high temperature toxic smoke from the fire can be reduced as far as possible.

Suggested Citation

  • Hao-wei Yao & You-xin Li & Ke-feng Lv & Jin-guang Zhang & Zhong-bin Lv & Dong Wang & Zhen-yu Zhan & Xiao-ge Wei & Huai-tao Song & Heng-jie Qin & Lianhui Li, 2022. "Numerical Simulation of Smoke Control in Underground Space," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-7, July.
    • Handle: RePEc:hin:jnlmpe:3113779
    DOI: 10.1155/2022/3113779
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