MODELLING OF THE HIGH-TEMPERATURE EFFECTS OF FIRE ON GLAZING OF BUILDING EMBRASURES USING A MOVING HEAT SOURCE
Abstract and keywords
Abstract (English):
This article discusses the methodology for assessing the high-temperature impact of fire on the glazing of building embrasures using a moving heat source The article also considers issues of high-temperature impact on glazing from the outside of the building in order to ensure the facades fire safety and selection of protection against fire. The researchers performed a numerical experiment to determine the limiting probabilities for the system of building embrasures.

Keywords:
glazing of building embrasures, Markov process, state graphs, fire safety
Text
Publication text (PDF): Read Download
References

1. Davydov, A.N. (2017) Markovsky process as a probabilistic method for assessing the reliability of the pavement of highways, Tradicii i innovacii v stroitel'stve i arkhitekture. Stroitel'stvo: sb. st. / Samarskij gosudarstvennyj tekhnicheskij universitet. Samara: Samarskij gosudarstvennyj arkhitekturno-stroitel'nyj universitet, pp. 116-119 (in Russian).

2. Misbakhov, R.Sh. & Mizonov, V.E. (2015) Modelling of thermal conductivity in a composite region with phase transitions, Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta, (4), pp. 39-43 (in Russian).

3. Lyubimova, T.V. (2019) Reliability of hydrogeological forecasts in the zones of influence of reservoirs, Geologiya, geografiya i global'naya energiya, (4), pp. 99-106 (in Russian).

4. Mizonov, V.E., Mitrofanov, A.V., Basova, E.V. & Shuina, E.A. (2020) Theoretical study of nonlinear thermal conductivity in a multilayer medium with phase transitions in layers, Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta, (1), pp. 53-59 (in Russian).

5. Mizonov, V.E., Mitrofanov, A.V., Basova, E.V. & Shuina, E.A. (2020) Cellular model of thermal conductivity in a multilayer medium with a variable number of layers, Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta, (3), pp. 51-57 (in Russian).

6. Simonovich, O.S., Snezhko, V.L., & Kozlov, D.V. Periodicity of repair of low-pressure ground dams to preserve their safety level, Prirodoobustrojstvo, (1), pp. 59-64 (in Russian).

7. Ogurtsov, V.A., Khokhlova, Yu.V., Alyoshina, A.P. & Fatakhetdinov, A.M. (2019) Modelling of the processes of obtaining dry building mixes in a continuous blade apparatus Vestnik Povolzhskogo gosudarstvennogo tekhnologicheskogo universiteta. Seriya: Materialy. Konstrukcii. Tekhnologii, (2), pp. 30-36 (in Russian).

8. Gefan, G.D. (2009) Markov processes and queuing systems. Irkutsk: Irkutskij gosudarstvennyj universitet putej i soobshchenij, pp. 20-21 (in Russian).

9. Grenander, U. & Freiberger, V. (1978) A short course in computational probability and statistics. Moscow: Nauka, pp. 85-97 (in Russian).

Login or Create
* Forgot password?