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Thermo-Fluid Dynamics Analysis of Fire Smoke Dispersion and Control Strategy in Buildings

Author

Listed:
  • Ricardo S. Gomez

    (Postgraduate Program in Mechanical Engineering, Federal University of Paraiba, João Pessoa 58051-900, PB, Brazil)

  • Túlio R. N. Porto

    (Department of Mechanical Engineering, Federal University of Campina Grande, Campina Grande 58429-900, PB, Brazil)

  • Hortência L. F. Magalhães

    (Department of Chemical Engineering, Federal University of Campina Grande, Campina Grande 58429-900, PB, Brazil)

  • Antonio C. Q. Santos

    (Department of Mechanical Engineering, Federal University of Campina Grande, Campina Grande 58429-900, PB, Brazil)

  • Victor H. V. Viana

    (Postgraduate Program in Security Engineering, University Center of Patos (UNIFIP), Campina Grande 58416-440, PB, Brazil)

  • Kelly C. Gomes

    (Postgraduate Program in Mechanical Engineering, Federal University of Paraiba, João Pessoa 58051-900, PB, Brazil
    Department of Renewable Energy Engineering, Federal University of Paraiba, João Pessoa 58051-900, PB, Brazil)

  • Antonio G. B. Lima

    (Department of Mechanical Engineering, Federal University of Campina Grande, Campina Grande 58429-900, PB, Brazil)

Abstract

Smoke is the main threat of death in fires. For this reason, it becomes extremely important to understand the dispersion of this pollutant and to verify the influence of different control systems on its spread through buildings, in order to avoid or minimize its effects on living beings. Thus, this work aims to perform thermo-fluid dynamic study of smoke dispersion in a closed environment. All numerical analysis was performed using the Fire Dynamics Simulator (FDS) software. Different simulations were carried out to evaluate the influence of the exhaust system (natural or mechanical), the heat release rate (HRR), ventilation and the smoke curtain in the pollutant dispersion. Results of the smoke layer interface height, temperature profile, average exhaust volumetric flow rate, pressure and velocity distribution are presented and discussed. The results indicate that an increase in the natural exhaust area increases the smoke layer interface height, only for the well-ventilated compartment (open windows); an increase in the HRR accelerates the downward vertical displacement of the smoke layer and that the 3 m smoke curtain is efficient in exhausting smoke, only in the case of poorly ventilated compartments (i.e., with closed windows).

Suggested Citation

  • Ricardo S. Gomez & Túlio R. N. Porto & Hortência L. F. Magalhães & Antonio C. Q. Santos & Victor H. V. Viana & Kelly C. Gomes & Antonio G. B. Lima, 2020. "Thermo-Fluid Dynamics Analysis of Fire Smoke Dispersion and Control Strategy in Buildings," Energies, MDPI, vol. 13(22), pages 1-27, November.
    • Handle: RePEc:gam:jeners:v:13:y:2020:i:22:p:6000-:d:446498
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    Cited by:

    1. Pengcheng Qin & Mingnian Wang & Zhanwen Chen & Guanfeng Yan & Tao Yan & Changling Han & Anmin Wang, 2021. "Effects of Ambient Pressure on Burning Characteristics of Gasoline: A Pilot Study," Energies, MDPI, vol. 14(15), pages 1-12, July.
    2. Teng-Yi Wang & Kuang-Chung Tsai, 2021. "Effects of Time to Unactuate Air Conditioning on Fire Growth," Energies, MDPI, vol. 14(11), pages 1-15, May.
    3. Benedetto Nastasi & Francesco Mancini, 2021. "Procedures and Methodologies for the Control and Improvement of Energy-Environmental Quality in Construction," Energies, MDPI, vol. 14(9), pages 1-2, April.
    4. Marek Podkul & Jiri Pokorny & Lenka Brumarova & Dagmar Dlouha & Zuzana Heinzova & Katerina Kubricka & Dawid Szurgacz & Miroslav Fanta, 2022. "New Calculation Technique for Assessment of Smoke Layer Interface in Large Buildings in Connection with the Design of Buildings in the Czech Republic," Sustainability, MDPI, vol. 14(11), pages 1-18, May.

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