KnE Life Sciences

ISSN: 2413-0877

The latest conference proceedings on life sciences, medicine and pharmacology.

Evaluation of Reliability Values of the Building Safety System against Fire Hazards in the X Government Office Building in Jakarta

Published date: Jun 19 2018

Journal Title: KnE Life Sciences

Issue title: International Conference of Occupational Health and Safety (ICOHS 2017)

Pages: 607–615

DOI: 10.18502/kls.v4i5.2590

Authors:
Abstract:

Fire incidents in Jakarta during the year 2015 reached 1582 cases, with 22 people dead and material losses of around IDR 377 billion Indonesian Rupiah (IDR). To minimize the risk of fire hazards in office buildings, buildings must be equipped with a reliable fire response system. This study evaluated the reliability of the building safety system against fire hazards in the X government office building in Jakarta. This is a descriptive study that evaluates fire safety systems based on DKI Jakarta Province Local Regulations, Ministry of Public Works Regulations and National Fire Protection Association (NFPA) requirements. There are four system reliability parameters in building fire safety. The first one is the completeness of site resources where the building is located/build, that is, water sources, road environment, road between buildings, and hydrant yard. The second one is means of rescue completeness, that is, exit doors, exit construction, and helicopter pad. The third one is completeness of active protection system, that is, alarm detection, light fire extinguisher, sprinkler,
etc. The last one is completeness of passive protection system, that is, fire-resistance building structure, compartmentalization of space, and protection of openings. The study undertook a literature review, field observation and in-depth interviews. The X government office building considered in this study consists of 15 floors and 2 basement floors with a square area of 34,948 m2 . The results of the study indicated the reliability value of the building safety system against fire hazards in the X government office building rate was sufficient, which is to say that it was 67.75 percent in compliance with standards. Parameters considered were completeness of site (82.5%), means of rescue (72.7%), passive protection (58.0%), and active protection (57.4%). The low value of the active protection parameter was caused by the functional failure of smoke detectors, fire alarms, sprinklers, and building hydrants. For the passive protection parameter, there were several improvements in shaft protection and dividing room compartments that need to be made to comply
with the standard.


Keywords: fire protection, reliability, passive protection system, active protection system

References:

[1] (24 January 2017). Jakarta Owns the 7th Most Highest Skyscraper in the World. Retrieved from databoks.katada.co.id


[2] Yusuf, M. (23 December 2016). Throughout 2016 Fire in Jakarta 1,139 Case, 20 People Killed. Warta Kota.


[3] Saptaria, E., Mulyanto, S., and Maryono. (2005). Technical Guidance of Fire Building Fire Inspection. Bandung: Center for Settlement Research and Development, Ministry of Public Works.


[4] Suprapto. (27 September 2006). Development of Safety Management Based on Potential Fire Hazards in Building Buildings and Industry. Department of Rescue and Rescue of DKI Jakarta Province, News.


[5] DKI Jakarta Provincial Regulation No. 8 of 2008 about Fire Prevention and Countermeasures.


[6] Provincial Regulation of DKI Jakarta Number 7 of 2010 about Structure Buildings.


[7] Regulation of the Provincial Governor of DKI Jakarta Number 92 of 2014 about Technical Requirements and Procedures for Installation of Upright Pipes and Fire Hose Pipes and Hydrant Yard.


[8] Regulation of the Provincial Governor of DKI Jakarta Number 200 of 2015 about regarding Technical Requirements for Fire Extinguisher Access.


[9] Regulation of the Provincial Governor of DKI Jakarta Number 250 of 2015 about Technical Requirements and Procedure of Installation of Fire Detection and Alarm System.


[10] Regulation of the Minister of Public Works Number 26 in 2008 about Technical Requirements of Fire Protection System on Building and Environment.


[11] NFPA 10: Standard for Portable Fire Extinguishers, 2013 Edition.


[12] NFPA 13: Standard for the Installation of Sprinkler Systems, 2013 Edition.


[13] NFPA 14: Standard for the Installation of Standpipe and Hose Systems, 2013 Edition.


[14] NFPA 15: Standard for Water Spray Fixed Systems for Fire Protection, 2012 Edition.


[15] NFPA 72: National Fire Alarm and Signaling Code, 2013 Edition.


[16] NFPA 92: Standard for Smoke Control Systems, 2012 Edition.


[17] NFPA 92A: Standard for Smoke-Control Systems Utilizing Barriers and Pressure Differences.


[18] NFPA 101: Life Safety Code®, 2012 Edition.


[19] Trikomara, R., Sebayang, M., and Mahmudah, R. (2012). Evaluate the Reliability of Fire Protection System in Building Buildings (Case Study Office Indragiri Hilir Regent). Riau.

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