Development of methods of ensuring fire safety of general ventilation systems

Authors

  • Vadim A. Kudryashov State Educational Establishment «University of Сivil Protection of the Ministry for Emergency Situations of the Republic of Belarus»; 220118, Belarus, Minsk, Mashinostroiteley str., 25 https://orcid.org/0000-0003-4889-1060
  • Aleksandr S. Panasik State Educational Establishment «University of Сivil Protection of the Ministry for Emergency Situations of the Republic of Belarus»; 220118, Belarus, Minsk, Mashinostroiteley str., 25
  • Stanislav S. Koba Institution «Scientific and Research Institute of Fire Safety and Emergency Situations» of the Ministry for Emergency Situations of the Republic of Belarus; 220046, Belarus, Minsk, Soltysa str., 183a https://orcid.org/0000-0003-0236-9349

DOI:

https://doi.org/10.33408/2519-237X.2024.8-3.367

Keywords:

regulation, fire safety, general ventilation systems, fire resistance, ductwork, testing

Abstract

Purpose. To conduct a retrospective analysis of fire safety design regulations for general ventilation systems, as well as fire resistance testing methods for ductwork; to determine the significance of the concept of fire resistance within the fire safety framework for general ventilation systems.

Methods. The retrospective analysis was conducted based on regulatory documents and standards published for the past 100 years. International and domestic fire resistance testing standards for general ventilation systems were compared.

Findings. Fires associated with general ventilation systems are quite rare events that carry serious potential consequences, and the level of these consequences cannot be classified as negligible. In most cases, measures to eliminate these consequences can be provided for and standardized, however, the rare nature of these events and the complexity of general ventilation systems led to a rather long and difficult period of formation of the fire safety regulation system in the field of ventilation systems. Fire resistance of general ventilation ductwork, along with the installation of fire dampers, is one of the key aspects of limiting the spread of fire outside the service area. The results of the research allowed the authors to prepare proposals for Amendment No. 3 to State Standards of the Republic of Belarus 11.03.01-2009 (May 2024), which provides for the possibility of conducting tests and criteria for assessing/extending the results to ventilation systems with an air duct side longer than 1600 mm. Refinement of the existing test method for air ducts made it possible to formulate rules for extrapolation (distribution) of test results for air ducts of a similar tested design with a side length from 1000 to 1600 mm.

Application field of research. The obtained results can be implemented in the system of fire safety regulation and standardization, in terms of concerning fire safety requirements for general ventilation systems, testing methods for ductwork for fire resistance and dissemination of test results.

Author Biographies

Vadim A. Kudryashov, State Educational Establishment «University of Сivil Protection of the Ministry for Emergency Situations of the Republic of Belarus»; 220118, Belarus, Minsk, Mashinostroiteley str., 25

Chair of Fire Safety, Professor; PhD in Technical Sciences, Associate Professor

Aleksandr S. Panasik, State Educational Establishment «University of Сivil Protection of the Ministry for Emergency Situations of the Republic of Belarus»; 220118, Belarus, Minsk, Mashinostroiteley str., 25

Administration Training Faculty, graduate student

Stanislav S. Koba, Institution «Scientific and Research Institute of Fire Safety and Emergency Situations» of the Ministry for Emergency Situations of the Republic of Belarus; 220046, Belarus, Minsk, Soltysa str., 183a

Field Testing Department, Chief Specialist

References

Molchanov B.S. Proektirovanie promyshlennoy ventilyatsii [Industrial ventilation design]: a guide for designers. Leningrad: Stroyizdat, 1970. 228 p. (rus)

Naumov V.D., Alyavdina T.I., Bedula N.V., Zholud' A.S., Zholud' T.V., Poslova T.G., Feofilova Yu.Yu., Frolova T.S. Bol'shoy stroitel'nyy terminologicheskiy slovar'-spravochnik: ofitsial'nye i neofitsial'nye terminy i opredeleniya v stroitel'stve, arkhitekture, gradostroitel'stve i stroitel'noy tekhnike [Large Construction Terminology Dictionary: official and unofficial terms and definitions in construction, architecture, urban planning and construction technology]. Minsk: Minsktipproekt, 2008. 812 p. (rus)

Grushevskiy B.V., Kotov N.L., Sidoruk V.I. et al. Pozharnaya profilaktika v stroitel'stve [Fire prevention in construction]: textbook for cadets and students of fire technical schools. Moscow: Stroyizdat, 1989. 366 p. (rus)

Zakharchenko V.V. Pozharnaya opasnost' ventilyatsionnykh system [Fire hazard of ventilation systems]. Science, Technology and Education, 2019. No. 8 (61). Pp. 38–41. (rus). DOI: https://doi.org/10.24411/2312-8267-2019-10803. EDN: https://elibrary.ru/QLULAN.

Stefanov E.V. Ventilyatsiya i konditsionirovanie vozdukha [Ventilation and air conditioning]. Saint-Petersburg: Avok Severo-Zapad, 2005. 399 p. (rus)

Bogoslovskiy V.N., Pirumov A.I., Posokhin V.N. et al. Vnutrennie sanitarno-tekhnicheskie ustroystva [Internal sanitary engineering devices]: in 3 parts. Part 3. Ventilyatsiya i konditsionirovanie vozdukha [Ventilation and air conditioning]. Book 1. Moscow: Stroyizdat, 1992. 319 p. (rus)

Stomakhina G.I., Bobrovitskiy I.I., Malyavina E.G., Plotnikova L.V. Otoplenie, ventilyatsiya i konditsionirovanie vozdukha: Zhilye zdaniya so vstroenno-pristroennymi pomeshcheniyami obshchestvennogo naznacheniya i stoyankami avtomobiley. Kottedzhi [Heating, ventilation and air conditioning: Residential buildings with built-in and attached public premises and parking lots. Cottages]: reference manual. Moscow: Pantori, 2003. 275 p. (rus)

Bogoslovskiy V.N., Novozhilov V.I., Simakov B.D., Titov V.P. Otoplenie i ventilyatsiya [Heating and ventilation]: textbook for universities: in 2 parts. Part 2: Ventilyatsiya [Ventilation]. Moscow: Stroyizdat, 1976. Pp. 160–164. (rus)

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Published

2024-08-20

How to Cite

Kudryashov В. А., Panasik А. С. and Koba С. С. (2024) “Development of methods of ensuring fire safety of general ventilation systems”, Journal of Civil Protection, 8(3), pp. 367–380. doi: 10.33408/2519-237X.2024.8-3.367.

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Section

Legal and methodic support for the activity of the Ministry of Emergencies

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