A COMPARATIVE REVIEW OF DESIGN REQUIREMENTS FOR NATURAL SMOKE VENTILATION IN HOSPITAL BUILDINGS

Authors

  • Mohd Zaid Ab Ghani Kulliyyah of Architecture & Environmental Design INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIA
  • Srazali Aripin Kulliyyah of Architecture & Environmental Design INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIA

DOI:

https://doi.org/10.21837/pm.v16i6.487

Keywords:

natural smoke ventilation, smoke vent, hospital, windowless

Abstract

Smoke is recognized as the main factor of fatality when fire occurred in a building. Thus, smoke management in the building is of paramount importance in order to achieve a tenable indoor environment in the event of fire other than ensuring passive means of escapes to the place of safety. In hospital building, where patients have limited movements, natural smoke ventilation through windows is the most common form of smoke control design. Nevertheless, inappropriate design of natural smoke ventilation through window may result to poor smoke air flow contributing to unwanted toxic gases inhaled by occupants that lead to fatalities in the event of fire. This study aims to analyse the design requirements and specifications of natural smoke ventilation system in buildings by exploring local and other prominent building regulations as well as code of practices around some countries. The study found that smoke ventilation system (natural and mechanical) is usually applied in windowless building, basement and in large open spaces. The natural smoke ventilation system employs smoke vents (gravity vents) located at a higher level in the roof or at the ceiling level. The regulations state that the size of smoke vents for effective natural smoke ventilation is in between 2% to 3% of the floor areas. Most regulations would allow openable windows for smoke ventilation in the event of fire.

Downloads

Download data is not yet available.

References

AAMA. (2010). Planning for patient safety. Pediatrics in Review, 847.

Bongiovanni, I., Leo, E., Ritrovato, M., Santoro, A., & Derrico, P. (2017).

Implementation of best practices for emergency response and recovery at a large hospital: A fire emergency case study. Safety Science, 96, 121-131.

Chan, L. M. (2004). Scale modeling of natural vent design and the effects of vent operation time. International Journal on Engineering Performance-Based Fire Codes, 6(4), 272–276.

Chen, H., Liu, N., & Chow, W. (2009). Wind effects on smoke motion and temperature of ventilation-controlled fire in a two-vent compartment. Building and Environment, 44(12), 2521–2526.

Hui, M. C. (2013). An approach to provide cost effective patient fire safety. Asia Pacific Journal of Health Management, 8(1), 39-44.

Jabatan Bomba dan Penyelamat Malaysia [JBPM] (2017). Statistik kes-kes kebakaran di Malaysia 2010-2016. Pusat Sumber Ibu Pejabat Bomba Malaysia.

Jalali, H., Asl, E., Mehr, A., Pourafzali, S., & Ghasemi, M. (2016). Prevention and control of operating room fires: Knowledge of staff employed by selected hospitals of Isfahan University of Medical Sciences. Digital Medicine, 2(2), 52.

Ji, J., Gao, Z. H., Fan, C. G., & Sun, J. H. (2013). Large Eddy Simulation of stack effect on natural smoke exhausting effect in urban road tunnel fires. International Journal of Heat and Mass Transfer, 66, 531–542.

Kerber, S. (2010). Impact of ventilation on fire behavior in legacy and contemporary residential construction. Retrieved from https://ulfirefightersafety.org/researchprojects/impact-of-ventilation-on-fire-behavior-in-legacy-and-contemporaryresidential-construction.html.

Kobes, M., Helsloot, I., Vries, B., & Post, J. G. (2010). Building safety and human behaviour in fire: A literature review. Fire Safety Journal, 45(1), 1-11.

Krol, M. (2011). Review of smoke management in atrium. Architecture, Civil

Engineering, Environment, 3, 121-128.

Kulkarni, R. S., Giri, P. A., & Gangwal, P. R. (2016). Knowledge and practices regarding fire safety amongst health care workers in tertiary care teaching hospital in Marathwada region of Maharashtra, India. International Journal of Community Medicine and Public Health, 3(7), 1900-1904.

Lai, C. M., Chen, C. J., Tsai, M. J., Tsai, M. H., & Lin, T. H. (2013). Determinations of the fire smoke layer height in a naturally ventilated room. Fire Safety Journal, 58, 1-14.

Li, S., Su, C., & Tsai, K. (2016). A study on wind-induced smoke extraction systems for building fires. MATEC Web of Conferences 51, 02001.

Nagral, S. (2012). Fire in a hospital. Indian Journal of Medical Ethics, 9(2), 77-9.

Ong, C., & Suleiman, M. Z. (2015). Problems in implementation of fire safety

management in Malaysia government hospital. Advance of Environmental Biology, 9(March), 47-50.

Pal, I., & Ghosh, T. (2014). Fire incident at AMRI Hospital, Kolkata ( India ): A real time assessment for urban fire. Journal of Business Management & Social Sciences Research, 3(1), 9-13.

Partridge, J. J. (2013). Smoke hazard management in Queensland hospitals – A case study (Master research project). University of Canterbury, Christchurch, New Zaeland.

Strating, N. (2013). Evacuation of bedridden building occupants (Final thesis). Eindhoven University of Technology, Eindhoven, the Netherlands.

Su, C., Huang, H., Lin, C., & Lin, C. (2014). Numerical Simulation of The Impact of Natural Ventilation on Fire Safety in Green Buildings. 2nd Asia Conference of International Building Performance Simulation Association (ASim2014). Nagoya, Japan.

Tancogne-Dejean, M., & Laclémence, P. (2016). Fire risk perception and building evacuation by vulnerable persons: Points of view of laypersons, fire victims and experts. Fire Safety Journal, 80, 9-19.

Uniform Buildings By-Laws [UBBL] (1984) (Malaysia).

Wegrzynski, W., & Krajewski, G. (2017). Influence of wind on natural smoke and heat exhaust system performance in fire conditions. Journal of Wind Engineering and Industrial Aerodynamics, 164, 44-53.

Wojciech, W., & Grzegorz, K. (2017). Combined wind engineering, smoke flow and evacuation analysis for a design of a natural smoke and heat ventilation system. Procedia Engineering, 172, 1243-1251.

Yatim, Y. M. (2009). Fire safety models for high-rise residential buildings in Malaysia (Doctoral thesis). Heriot Watt University, Edinburgh, UK.

Yue, T. K., Chow, W. K., & Fong, N. K. (2016). Numerical simulation on the effect of natural ventilation to fire growth and the formulation of fire protection strategy for supertall buildings.

Downloads

Published

2018-09-12

How to Cite

Ab Ghani, M. Z., & Aripin, S. (2018). A COMPARATIVE REVIEW OF DESIGN REQUIREMENTS FOR NATURAL SMOKE VENTILATION IN HOSPITAL BUILDINGS. PLANNING MALAYSIA, 16(6). https://doi.org/10.21837/pm.v16i6.487