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http://dx.doi.org/10.15683/kosdi.2021.12.31.890

A Study on Fire Dynamics Simulation on the Arrangement of Aero System in the Residential  

Choi, Doo Chan (KFUBIS)
Ko, Min Hyeok (KFUBIS)
Lee, Doo Hee (KFUBIS)
Park, Kye Won (Fire Insurers Laboratories of Korea)
Choi, Jeong Min (Fire Insurers Laboratories of Korea)
Lee, Yong Kwon (Samwoo Instrument, INC)
Kim, Gil Nam (Samwoo Instrument, INC)
Sun, Kyoung Soo (INTENXIV)
Publication Information
Journal of the Society of Disaster Information / v.17, no.4, 2021 , pp. 890-896 More about this Journal
Abstract
Purpose: The called Aero System is important to find the well detected place in the livingroom or bedroom so, it needs to the confirmation through the Fire Dynamics Simulation Method: A fire simulation of a residential space of 59 m2 was performed, and in order to find the point where the fire environment was exposed quickly, measuring points were installed at 0.6 m and 1.5 m in height for each bedroom and living room, and the point where the fire was quickly detected was confirmed. Result: It was confirmed that the temperature and carbon monoxide sensor set at a point of 1.5 m was quickly detected at the reference value. Conclusion: The Fire detection would be relatively quick if the product in which the fire extinguishing module and the AQI module were separated was installed on the wall.
Keywords
Quality of Life; AQI; Aero System; Fire Simulation; CO; Temperature;
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