Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
FDS MODELING OF THE FIRE-PREVENTING EAVES EFFECTIVENESS TO PREVENT THE FIRE SPREADING ON FACADE OF HIGH-RISE BUILDINGS ; FDS МОДЕЛЮВАННЯ ЕФЕКТИВНОСТІ ПРОТИПОЖЕЖНИХ КАРНИЗІВ НА ЗАПОБІГАННЯ ПОШИРЕННЮ ПОЖЕЖІ ФАСАДНИМИ КОНСТРУКЦІЯМИ ВИСОТНИХ БУДІВЕЛЬ
Purpose. Applying FDS modelling to detect the influence of structural parameters of facade fire eaves, the effectiveness of fire prevention by vertical building structures in high-rise buildings.Methods. To calculate the temperature in the high-rise building model used Pyrosim computer system that serves as the user's shell application Fire Dynamics Simulator (FDS). This FDS system uses numerical algorithms to solve the complete Navier-Stokes differential equation system to determine temperature and other hazardous factors during a fire.Results. The results of FDS modelling during substantiation of constructive parameters of fire eaves, which protrude beyond the facade and located on the border of fire compartments along the contour of high-rise buildings with a nominal height of more than 73.5 m, are presented. Premises and substantiated the criteria for the destruction of external light openings (windows) as an integral factor in the spread of fire on the external vertical building structures of high-rise ПОЖЕЖНА БЕЗПЕКА40 Вісник ЛДУБЖД, №23, 2021buildings. A study of the effectiveness of the structural parameters of cornices and their impact on the effectiveness of fire prevention by vertical building structures under the same initial conditions of fire development. Constructed comparative dependences of distribution of temperatures of heating of a facade of the house. Also defined the duration of achievement of their critical values.Scientific novelty. The analysis of the data obtained as a result of FDS modelling under the same initial conditions and conclusions on the effectiveness of design parameters of fire facade cornices on the border of fire compartments and ways to further improve their design to prevent the spread of fire in high-rise buildings. These studies are aimed at their use by design institutions during the development of design parameters of fire eaves, which protrude beyond the facade and are located on the border of fire compartments along the contour of high-rise buildings, as well as ...
FDS MODELING OF THE FIRE-PREVENTING EAVES EFFECTIVENESS TO PREVENT THE FIRE SPREADING ON FACADE OF HIGH-RISE BUILDINGS ; FDS МОДЕЛЮВАННЯ ЕФЕКТИВНОСТІ ПРОТИПОЖЕЖНИХ КАРНИЗІВ НА ЗАПОБІГАННЯ ПОШИРЕННЮ ПОЖЕЖІ ФАСАДНИМИ КОНСТРУКЦІЯМИ ВИСОТНИХ БУДІВЕЛЬ
Purpose. Applying FDS modelling to detect the influence of structural parameters of facade fire eaves, the effectiveness of fire prevention by vertical building structures in high-rise buildings.Methods. To calculate the temperature in the high-rise building model used Pyrosim computer system that serves as the user's shell application Fire Dynamics Simulator (FDS). This FDS system uses numerical algorithms to solve the complete Navier-Stokes differential equation system to determine temperature and other hazardous factors during a fire.Results. The results of FDS modelling during substantiation of constructive parameters of fire eaves, which protrude beyond the facade and located on the border of fire compartments along the contour of high-rise buildings with a nominal height of more than 73.5 m, are presented. Premises and substantiated the criteria for the destruction of external light openings (windows) as an integral factor in the spread of fire on the external vertical building structures of high-rise ПОЖЕЖНА БЕЗПЕКА40 Вісник ЛДУБЖД, №23, 2021buildings. A study of the effectiveness of the structural parameters of cornices and their impact on the effectiveness of fire prevention by vertical building structures under the same initial conditions of fire development. Constructed comparative dependences of distribution of temperatures of heating of a facade of the house. Also defined the duration of achievement of their critical values.Scientific novelty. The analysis of the data obtained as a result of FDS modelling under the same initial conditions and conclusions on the effectiveness of design parameters of fire facade cornices on the border of fire compartments and ways to further improve their design to prevent the spread of fire in high-rise buildings. These studies are aimed at their use by design institutions during the development of design parameters of fire eaves, which protrude beyond the facade and are located on the border of fire compartments along the contour of high-rise buildings, as well as ...
FDS MODELING OF THE FIRE-PREVENTING EAVES EFFECTIVENESS TO PREVENT THE FIRE SPREADING ON FACADE OF HIGH-RISE BUILDINGS ; FDS МОДЕЛЮВАННЯ ЕФЕКТИВНОСТІ ПРОТИПОЖЕЖНИХ КАРНИЗІВ НА ЗАПОБІГАННЯ ПОШИРЕННЮ ПОЖЕЖІ ФАСАДНИМИ КОНСТРУКЦІЯМИ ВИСОТНИХ БУДІВЕЛЬ
Yakovchuk, R. (Autor:in) / Ballo, Ya. (Autor:in) / Kuzyk, A. (Autor:in) / Kagitin, O. (Autor:in) / Kovalchuk, V. (Autor:in)
30.06.2021
doi:10.32447/20784643.23.2021.06
Bulletin of Lviv State University of Life Safety; Том 23 (2021): Вісник Львівського Державного університету безпеки життєдіяльності; 39-45 ; Вісник Львівського державного університету безпеки життєдіяльності; Том 23 (2021): Вісник Львівського Державного університету безпеки життєдіяльності; 39-45 ; 2708-1389 ; 2078-4643 ; 10.32447/20784643.23.2021.00
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
624