Оригинал (Original)
Автори: Антонов, И. С., Величкова, Р. Т., Антонов, С. И., Грозданов Камен.
Заглавие: Mathematical Modeling and Simulation of Development of the Fires in Confined Spaces
Ключови думи: fire simulation, FDS, garages, buildings, numerical simulati

Абстракт: The mathematical models of fire distribution in a confined space–in underground garages and in buildings—are described. Integral and computational fluid mechanics methods are used. The chapter presents the results of a fire simulation using the software Fluent. It uses Reynolds-type turbulence models of the Fire Dynamic Simulation or PyroSim graphical interface with a solution model describing a turbulence. For both cases, the pictures of the spread of fire and smoke over time in an atrium of an administrative building and a five-story building of the TUS were presented.

Библиография

    Издание

    , 2020, Обединеното кралство, IntechOpen, DOI 10.5772/intechopen.91274

    Издателските права се държат от IntechOpen

    		Autors: Antonov, I. S., Velichkova, R. T., Antonov, S. I., Grozdanov K.
    Title: Mathematical Modeling and Simulation of Development of the Fires in Confined Spaces
    Keywords: fire simulation, FDS, garages, buildings, numerical simulation

    Abstract: The mathematical models of fire distribution in a confined space–in underground garages and in buildings—are described. Integral and computational fluid mechanics methods are used. The chapter presents the results of a fire simulation using the software Fluent. It uses Reynolds-type turbulence models of the Fire Dynamic Simulation or PyroSim graphical interface with a solution model describing a turbulence. For both cases, the pictures of the spread of fire and smoke over time in an atrium of an administrative building and a five-story building of the TUS were presented.

    References

      Issue

      , 2020, United Kingdom, IntechOpen, DOI 10.5772/intechopen.91274

      Copyright IntechOpen

      Цитирания (Citation/s):
      1. I. Trushev, S. Schati and D. Patil, "On the Minimal Fire Power for Heat Detection," 2021 56th International Scientific Conference on Information, Communication and Energy Systems and Technologies (ICEST), Sozopol, Bulgaria, 2021, pp. 239-242, doi: 10.1109/ICEST52640.2021.9483478. - 2021 - в издания, индексирани в Scopus и/или Web of Science
      2. Dmitry Belyuchenko, Denys Lovin, Victor Strelets, Valeriy Strelec, STATISTICAL EVALUATION OF THE MATHEMATICAL MODEL OF OPERATIONAL DEPLOYMENT OF FIRE AND RESCUE VEHICLES, DOI: https://doi.org/10.31731/2524.2636.2022.6.1.5-19, Vol. 6 No. 1 (2022): Collection of Scientific Papers of Cherkasy Institute of Fire Safety named after Chornobyl Heroes of National University of Civil Protection of Ukraine «Emergency Situations: Prevention and Liquidation», 2022 - 2022 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
      3. Белюченко Д.Ю., Нанкова, В.С., ОЦІНКА ЕФЕКТИВНОСТІ ОПЕРАТИВНИХ ДІЙ ПЕРШИМ РЯТУВАЛЬНИМ ПІДРОЗДІЛОМ. 23 лютого 2023 року Харків, p.86-87., УДК 622 - 2023 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science

      Вид: книга/глава(и) от книга, индексирана в Google Scholar