FIRE SAFETY ANALYSIS OF RESIDENTIAL BUILDINGS IN NOVI SAD
DOI:
https://doi.org/10.24867/04NU03MilankoKeywords:
residential buildings, fire load, fire risk, Euroalarm methodAbstract
In order to evaluate the potential fire risk and improve safety of buildings and their users, the paper analyzes the fire load in family dwellings of average floor areas and equipment in Novi Sad. The data for fire load calculation are obtained by a combined method. Euroalarm method was used for fire risk assessment and obtained results indicated the need for installation of fire alarm and detection systems in residential buildings. Fire risk assessment in residential buildings in Novi Sad is based on collected statistical data on the number and location of the occurrence of fire event. The proposal of fire safety measures is given in the final part of the paper.
References
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[2] Vatrogasno − spasilačka jedinica Novi Sad, 2018., Uprava za vanredne situacije, MUP Republike Srbije
[3] Opštine i regioni u Republici Srbiji, 2018., Republički zavod za statistiku, Beograd, str. 266. http://publikacije.stat.gov.rs/G2018/Pdf/G201813045.pdf
[4] D. Jovanović, D. Tomanović, 2002., Dinamika požara, Univerzitet u Nišu, Fakultet zaštite na radu, Niš.
[5] J. Eduful, 2012, Correlation of fire load survey methodologies towards design fires for office buildings, Thesis, Department of Civil and Environmental Engineering Carleton University Ottawa, Canada. https://curve.carleton.ca/system/files/etd/a0f18aa6-1eb2-47c2-8c01-f9d4b3e332f4/etd_pdf/cb44d6bbe8ad254e765d5ba58a5ad2da/eduful-correlationoffireloadsurveymethodologiestowards.pdf#page=36&zoom=auto,-149,308
[6] Lars-Göran Bengtsson, 2001, Enclosure fires, Swedish Rescue Services Agency, Sweden.
[7] J. Hietaniemi, E. Mikkola, 2010, Design Fires for Fire Safety Engineering, VTT Technical Research Centre of Finland. https://www.researchgate.net/publication/41205202_Design_Fires_for_Fire_Safety_Engineering
[8] K. McGrattan, 2006, Fire Dynamics Simulator (Version 4), Technical Reference Guide, NIST Special Publication 1018, NIST National Institute of Standards and Technology.
[9] Zakon zaštite od požara, "Službeni glasnik RS", br. 111/2009, 20/2015, 87/2018 i 87/2018.
[10] Zakon o planiranju i izgradnji, "Sl. glasnik RS", br. 72/2009, 81/2009 - ispr., 64/2010 odluka US, 24/2011, 121/2012, 42/2013 - odluka US, 50/2013 - odluka US, 98/2013 - odluka US, 132/2014 i 145/2014 i 83/2018.
[11] M. Laban, V. Radonjanin, M. Malešev, M. Radeka, 2015., Svojstva građevinskih proizvoda i osnovni zahtevi zaštite fasada od požara pri energetskoj obnovi stambenih zgrada, TEHNIKA – NAŠE GRAĐEVINARSTVO 69 5, 759-766
[12] Stanovi prema vrsti zgrade, Republički zavod za statistiku, popis stanovništva, domačinstva i stanova, 2011, str. 135), http://www.stat.gov.rs/sr-Cyrl
[13] SRPS U.J1.030:1976 – Zaštita od požara. Požarno opterećenje, Savezni zavod za standardizaciju, Beograd.
[14] S. Draganić, M. Laban, V. Milanko, 2016, Analysis of fire load in apartments, 3rd International Scientific Meeting E-GTZ, Tuzla.
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Published
2019-10-02
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Section
Disaster Risk Management and Fire Safety