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A Study on the Application Scheme of Fire Identification Considering the Heat Release Rate Characteristics of Inflammable Material
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  • Journal title : Fire Science and Engineering
  • Volume 28, Issue 6,  2014, pp.52-57
  • Publisher : Korea Institute of Fire Science and Engineering
  • DOI : 10.7731/KIFSE.2014.28.6.052
 Title & Authors
A Study on the Application Scheme of Fire Identification Considering the Heat Release Rate Characteristics of Inflammable Material
Kang, Jung-Ki; Oh, Jin-Hee; You, Woo-Jun; Ryou, Hong-Sun; Choi, Don-Mook;
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 Abstract
The present study suggests the fundamental method for the prediction time of the fire origin by analyzing the combustion phenomenon of inflammable material in the building structure. The heat release rate (HRR) with time variant is evaluated for the interphone as a inflammable material, which is opted from the fire incidents in the stairwell. the fire dynamics simulator (FDS ver. 6.1) is applied in order to analyze the difference of the smoke inflow time to the downstair from the fire event area with various fire pattern. The results show that the maximum inflow time difference for the case of the interphone made from ABS materials is about 4.93 times with the input conditions of heat flux values and the environment in the FDS for the fixed stairwell which composed of total volume , floorage and the height of each floor 2.5 m. This research can be practical information for the application method of simulation scheme with experimental data to the fire Identification.
 Keywords
Fire identification;Heat release rate;Smoke inflow time;Inflammable material of ABS;Fire dynamics simulator;
 Language
Korean
 Cited by
 References
1.
T. Y. Hwang and D. M. Choi, "A Study on Experimental Characteristics in Fire Investigation Techniques of Flammable Liquids", Journal of Korean Institute of Fire Science & Engineering, Vol. 26, No. 6, pp. 7-14 (2012). crossref(new window)

2.
H. S. Kong and S. Y. Kim, "Criminal Legal Study of Fire Investigation", Journal of Korean Institute of Fire Science & Engineering, Vol. 24, No. 5, pp. 1-9 (2010).

3.
S. K. Lee, Y. C. Kim, H. S. Oh, K. S. Jung, D. W. Song and T. H. Kim, "Study on the Development of Qualification for Fire Identification and Estimation", Journal of Korean Institute of Fire Science & Engineering, pp. 78-85 (2010).

4.
S. B. Choi, S. H. Lee, M. K. Choi and D. M. Choi, "A Phenomenological Study on the Flame Spread of Air Conditioner Indoor unit by Fire Tests", Fire Sci. Eng., Vol. 27, No. 6, pp. 86-96 (2013). crossref(new window)

5.
B. K. Jin and S. I. Jung, "Fire Identification Based on Physical Properties of Bean Oil", Journal of Korean Institute of Fire Science & Engineering, Vol. 22, No. 3, pp. 246-251 (2008).

6.
S. H. Lee, J. S. Kim and H. S. Oh, "A Study on the Identification of Electrical Fire - Focused on Distance Analysis of Electrical Wires by Over Current", Journal of Korean Institute of Fire Science & Engineering, Vol. 18, No. 2, pp. 7-11 (2004).

7.
G. Mulholland, W. Twilley and V. Barauskas, "The Effect of Oxygen Concentration on CO and Smoke Produced by Flames", Int. Association Fire Safety Scien. 3rd Symposium, pp. 585-594 (1991).

8.
Y. H. Kim, "A Study on the Techniques Development of Fire Identification Analysis", Autumn Conference of Korean Institute of Fire Science & Engineering, pp. 123-126 (2011).

9.
V. Barauskas and R. D. Peacock, "Heat Release Rate : the Single Most Important Variable in Fire Hazard", Fire Safety J., Vol. 18, pp. 255-272 (1992). crossref(new window)

10.
S. C. Kim, "Application of Numerical Model for the Effective Design of Large Scale Fire Calorimeter", Journal of Korean Institute of Fire Science & Engineering, Vol. 24, No. 6, pp. 10-15 (2010).

11.
S. C. Kim and M. Bundy, "Numerical Model of a Large-Scale Oxygen Consumption Fire Calorimeter", J. Thermal Analysis and Calorimetry, Vol. 93, No. 3, pp. 1013-1019 (2008). crossref(new window)