The efficiency assessment of an automatic sprinkler system-Reference-Cited by-同舟云学术

The efficiency assessment of an automatic sprinkler system

Published:2021-03-02 Issue:1 Volume:30 Page:42-53
ISSN:2587-6201
Container-title:Pozharovzryvobezopasnost/Fire and Explosion Safety
language:
Short-container-title:Požarovzryvobezopasnostʹ

Author:

Tanklevskiy L. T.¹^ORCID,Tarantsev A. A.²^ORCID,Zybina O. A.³^ORCID,Babikov I. A.³^ORCID

Affiliation:

1. Peter the Great Saint Petersburg Polytechnic University; Saint-Petersburg University of State Fire Service of the Ministry of the Russian Federation for Civil Defense, Emergencies and Elimination on Consequences of Natural Disasters

2. Saint-Petersburg University of State Fire Service of the Ministry of the Russian Federation for Civil Defense, Emergencies and Elimination on Consequences of Natural Disasters; Solomenko Institute of Transport Problems of the Russian Academy of Science

3. Peter the Great Saint Petersburg Polytechnic University

Abstract

Introduction. Сases of ineffective activation of automatic sprinkler fire-fighting systems (AFFS), designed pursuant to current standards, have made it necessary to address the following three issues: a) identification of reasons for ineffective activation; b) examination of AFFS systems to ensure their successful activation in case of fire; c) making a list of recommendations for AFFS designers. These issues can be resolved with reference to Appendix B to new SP (Construction Regulations) 485.13130.2020.Maximal critical height of sprinkler placement. Models of fire development were used to design the roof height limit and the AFFS bulb heating time. If the ceiling height exceeds the limit value, sprinklers cannot be activated in a timely manner. This leads to delays in the AFFS activation, and, as a result, the fire area exceeds the one safeguarded by the sprinkler.Acceptable sprinkler height. The analysis of fire scenarios and bulb heating models allows to more accurately project the feasibility of timely AFFS activation. This, in turn, allows to solve the three above listed problems.Using a differential heat detector to activate sprinklers. If it is established that the use of the AFFS, activating sprinklers by means of thermal destruction of a bulb, is ineffective in a given room, the feasibility of forced AFFS activation using a differential heat detector responding to the temperature rise in a room may be considered. The ratios, thus obtained, are applied to identify the acceptable height of premises protected by the AFFS equipped with such detectors. Problem solutions, including the identification of the reason for the ineffective operation of the AFFS, examination of the AFFS in operation, and provision of recommendations to designers, are demonstrated using the exhibition hall as an example.Conclusions. The above-mentioned problems are resolvable with the help of Appendix B to new Construction Regulations 485.13130.2020 and the above models.

Publisher

Moscow State University of Civil Engineering

Reference30 articles.

1. Tanklevskiy L.T., Babikov I.A., Tarantsev A.A., Zybina O.A. On a more precise assessment of coordinates of the seat of fire in the premises. Pozharovzryvobezopasnost/Fire and Explosion Safety. 2020; 29(3):33-43. DOI: 10.18322/PVB.2020.29.03.33-43 (rus).

2. Tarantsev A.A., Tanklevskiy L.T., Snegirev A.Yu., Tsoy A.S., Kopylov S.N., Meshman L.M. Assessment of the sprinkler installation efficiency. Fire Safety Journal. 2015; 1:72-79. (rus).

3. Babikov I.A., Tanklevsky A.L., Tarantsev A.A. Determination method of sprinklers with electrical activation in case of internal fire. Risk Management Challenges in the Technosphere. 2019; 3(51):34-41. (rus).

4. Tanklevskiy L., Tsoy A., Snegirev A. Electrically controlled dynamic sprinkler activation computational assessment of potential efficiency. Fire Safety Journal. 2017; 91:614-623. DOI: 10.1016/j.firesaf.2017.04.019

5. Tanklevskiy L., Vasiliev M., Meshman L., Snegirev A., Tsoi A. A novel methodology of electrically controlled sprinkler activation. Proceedings of the 13th International conference Interflam 2013. London, 2013; 503-508.

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