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Fire safety in the built-environment: a case study in a residential facility

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In light of the spread of residential fires worldwide, this paper aims to identify the current fire safety code requirements for providing the minimum level of safety in residential facilities, hence, mitigating the risk of fire occurrence. The paper also presents the findings of a case study to demonstrate the compliance level of a sample residential facility, with code requirements. The case study building is composed of three floors and a basement. It can accommodate 214 persons. It was built in 2013, and it is located in Khobar, Saudi Arabia. The study revealed that the assessed facility had an adequate distribution of fire detection and notification systems. Moreover, the level of the housekeeping practices and concentration of hazardous material was found to be acceptable. However, the means of egress, fire doors and fire suppression systems were not up to code requirements. The study recommended measures to improve the level of safety in the building. These include increasing the number of fire exits; installing sprinkler heads on each floor; distributing fire extinguishers sufficiently; and installing fire rated doors. This study aims at raising awareness about the incidences of fires accidents in residential facilities and their catastrophic implications. It serves to provide a standardized fire safety management checklist, for the use of design professionals and property managers, towards the effective design and maintenance of residential facilities.
Rocznik
Strony
27--34
Opis fizyczny
Bibliogr. 26 poz.
Twórcy
  • Graduate Student; Architectural Engineering Department, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
  • Professor; Architectural Engineering Department, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
Bibliografia
  • [1] Chow, W. K. (2001). Review on fire safety management and application to Hong Kong, International Journal on Engineering Performance-Based Fire Codes, 3(1), 52-58.
  • [2] Gerges, M., Mayouf, M., Rumley, P., and Moore, D. (2017). Human behaviour under fire situations in high-rise residential building, International Journal of Building Pathology and Adaptation, 35(1), 90-106.
  • [3] Ahrens, M., (2017). Home Structure Fires; National Fire Protection Association (NFPA), Quincy, MA, USA.
  • [4] Statistics Canada (2018). Fire-related deaths and persons injured, by type of structure, Statistics Canada, Ottawa, Ontario, Canada, (Available online: https://www.statcan.gc.ca/).
  • [5] Government Digital Service (GDS). (2018). Fire statistics incident level datasets, London, United Kingdom, (Available online: https://www.gov.uk/government/statistical-datasets/ fire-statistics-incident-level-datasets).
  • [6] International Fire Code (IFC), 2018. (2003). International Fire Code; International Code Council; Cengage Learning, New Jersey, USA.
  • [7] Hassanain, M. A., and Saif, M., (2006). A systematic approach for fire safety audits in health-care facilities; Architectural Science Review, 49(2), 109-115.
  • [8] Hall, J. R., (2002). Fires involving appliance housings - Is there a clear and present danger?; Fire Technology, 38(2), 179-198.
  • [9] U.S. Fire Administrartion (FEMA)., (2008). Residential Structure and Building Fires; United States Fire Administration (USFA), Technical Report, Maryland, USA, p.84.
  • [10] Bwalya, A., Lougheed, G., Kashef, A., Saber, H., (2011). Survey results of combustible contents and floor areas in Canadian multi-family dwellings; Fire Technology, 47(4), 1121-1140.
  • [11] Mowrer, F.W. and Williamson, R.B., (1991), Flame spread evaluation for thin interior finish materials, Proceedings of the third International Symposium - Fire Safety Science, International Association for Fire Safety Science, New York, USA, 3, 689-698.
  • [12] Runyan, C. W., Bangdiwala, S. I., Linzer, M. A., Sacks, J. J., and Butts, J., (1992). Risks factors for fatal residential fires; The New England Journal of Medicine, 327(12), 859-863.
  • [13] Wijayasinghe, M. S., and Makey, T. B., (1997). Cooking oil: A home fire hazard in Alberta, Canada; Fire Technology, 33(2), 140-166.
  • [14] U.S. Fire Administrartion (FEMA)., (2012). Clothes Dryer Fires in Residential Buildings (2008-2010); Topical Fire Report Series, 13(7), 1-11.
  • [15] Xiong, L., Bruck, D., and Ball, M., (2015). Comparative investigation of “survival” and fatality factors in accidental residential fires; Fire Safety Journal, 73, 37-47.
  • [16] Thorne, B. (2018). Apartment building burns in Holland Twp, Holland Sentinel, Holland, Michigan, USA, 4 April.
  • [17] Burchill, P. R. C. (2018). Woman jumps from burning building; 12 apartments destroyed, Deseret News, Utah, USA, 8 August.
  • [18] Bridges, W., (2008). Selection of hazard evaluation techniques; Proceedings of the American Society of Safety Engineers’ Middle East Conference Chapter, Bahrain, 1-16.
  • [19] National Fire Protection Association (NFPA), (2018). NFPA glossary of terms, National Fire Protection Association (NFPA), Quincy, Massachusetts, USA.
  • [20] Ramli, A., Akasah, Z. A., and Masirin, M. I. M. (2013). Factors contributing building safety and health performance of low cost housing in Malaysia, Journal of Safety Engineering, 2(1), 1-9.
  • [21] Sagun, A., Anumba, C. J., and Bouchlaghem, D. (2013). Designing buildings to cope with emergencies: Findings from case studies on exit preferences, Buildings, 3, 442-461.
  • [22] Marshall, S. W., Runyan, C. W., Bangdiwala, S. I., Linzer, M. A., Sacks, J. J., and Butts, J. D. (1998). Fatal residential fires: Who dies and who survives ?, JAMA: The Journal of the American Medical Association, 279(20), 1633-1637.
  • [23] Kramer,W. M. (2009). Disaster planning and control, PennWell Corporation, Tulsa, Oklahoma, USA.
  • [24] Hassanain, M. A., Fatayer, F., and Al-Hammad, A. (2016). Design-phase maintenance checklist for electrical systems, Journal of Performance of Constructed Facilities, 30(2), 06015003.
  • [25] Kobes, M., Helsloot, I., de Vries, B., and Post, J. G. (2010). Building safety and human behaviour in fire: A literature review, Fire Safety Journal, 45, 1-11.
  • [26] Brandt-Rauf, P. W., Fallon, L. F., Tarantini, T., Idema, C., and Andrews, L. (1988). Health hazards of fire fighters: exposure assessment, British Journal of Industrial Medicine, 45(9), 606-612.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0b0f6bfe-bd20-422e-ae04-95153f7d1827
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