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

doi:10.15683/kosdi.2021.12.31.890

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2021 Vol.17, Issue 4 Preview Page Next Page

Original Article

A Study on Fire Dynamics Simulation on the Arrangement of Aero System in the Residential 주거공간 에어로 시스템 배치에 관한 화재시뮬레이션 연구: 최두찬¹ㆍ고민혁²*ㆍ이두희³ㆍ박계원⁴ㆍ최정민⁵ㆍ이용권⁶ㆍ김길남⁷ㆍ선경수⁸
Doo Chan Choi¹, Min Hyeok Ko²*, Doo Hee Lee³, Kye Won Park⁴, Jeong Min Choi⁵, Yong Kwon Lee⁶, Gil Nam Kim⁷, Kyoung Soo Sun⁸; ¹Chef Exeuctive Officer, KFUBIS, Seoul, Republic of Korea
²Senior Researcher, KFUBIS, Seoul, Republic of Korea
³Researcher, KFUBIS, Seoul, Republic of Korea
⁴Principal Researcher, Fire Insurers Laboratories of Korea, Yeoju, Republic of Korea
⁵Senior Researcher, Fire Insurers Laboratories of Korea, Yeoju, Republic of Korea
⁶Vice President, Samwoo Instrument, INC, Seoul, Republic of Korea
⁷Research Engineer, Samwoo Instrument, INC, Seoul, Republic of Korea
⁸Team Manger, INTENXIV, Seoul, Republic of Korea

31 December 2021. pp. 890-896

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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

Temperature

연구목적: ‘에어로 시스템’이란 제품을 개발하였으며, 화재 특성상 신속한 감지가 무엇보다 중요함으로 개발하고 있는 제품을 주거 공간 어느 지점에 배치를 하였을 때 신속하게 감지를 할 수 있는지 화재 시뮬레이션을 통해 확인하고자 하였다. 연구방법: 18평형의 주거 공간에서 화재시뮬레이션을 수행하였으며, 화재 환경이 빨리 노출되는 지점을 찾고자 침실, 거실 별로 측정점을 높이 0.6m, 1.5m 지점으로 설치하여 빨리 감지 되는 지점을 확인하였다. 연구결과: 대부분 1.5m 지점으로 설정한 온도 및 일산화탄소 센서가 기준 치에 빨리 감지 되는 지점을 확인하였다. 결론: 소화모듈과 AQI모듈이 분리된 제품을 벽에 부착형으로 설치할 경우 화재 감지가 상대적으로 빠른 것으로 확인되었다.

키워드

삶의 질

실내공기질

에어로 시스템

화재시뮬레이션

일산화탄소

온도

References

Choi, J.-M., Park, K.-W., Jeong, J.-G., Lee, Y.-K., Kim, G.-N., Choi, D.-C., Ko, M.-H. (2021). "Experimental study on the availability of fire detection using gas sensors for air quality measurement." Fire Science and Engineering Vol. 35, No.1, pp. 41-47. 10.7731/KIFSE.0759bab4
Choi, S.G., Young, J.S., Park, S.M., Nam, Y.J., Kim, S.K. (2020). "Basic research on potential application of fire detection by measuring fire detection tendency of indoor air quality measurement factors." Fire Science and Engineering, Vol. 34, No. 1, pp. 37-46 . 10.7731/KIFSE.2020.34.1.037
Kim, D.H., Jo, B.W. (2021). "A study on the development of a fire site risk prediction model based on initial information using big data analysis." Journal of The Korean Society of Disaster Information, Vol. 17, No. 2, pp. 245-253.
Lee, H.J., Ryu, J.R., Chung, M.H., Kim, M.G., Sang, H. (2019). "Optimal control method of indoor air quality in apartment using integrated sensor for indoor environment." Proceedings of the Society of Air-Conditioning and Refrigerating Engineers of Korea, pp. 108-110.
Park, H.-W. (2013). Experimental and Numerical Studies on Device Characteristics of Smoke and Heat Detectors. Ph.D. thesis, Daejeon University, Korea.
Ryu, H.C. (2014). "Analysis on activation characteristic of heat detectors in a compartment fire." Journal of The Korean Society of Disaster Information, Vol. 10, No. 4, pp. 598-608. 10.15683/kosdi.2014.10.4.598
Ryu, H.C. (2015). Analysis of Response Time of Heat Detectors by Installation Location and Fire Source in a Compartment Fire. Ph.D. thesis, Chungbuk National University, Korea.
Son, G-S., So, S.H. (2021). "A study on fire alarm test of IoT multi-fire detector combined Smoke/CO and Smoke/Temperature sensors." Journal of The Korean Society of Disaster Information, Vol. 17, No. 2, pp. 236-244.
Torkmahalleh, M.A., Goldasteh, I., Zhao, Y., Udochu, N.M., Rossner, A., Hopke, P.K., Ferro, A.R. (2012). "PM2.5 and ultrafine particles emitted during heating of commercial cooking oils." Indoor Air, Vol. 22, No. 6, pp. 483-491. 10.1111/j.1600-0668.2012.00783.x 22486983

Information

Publisher :The Korean Society of Disaster Information
Publisher(Ko) :한국재난정보학회
Journal Title :Journal of the Society of Disaster Information
Journal Title(Ko) :한국재난정보학회논문집
Volume : 17
No :4
Pages :890-896
DOI :https://doi.org/10.15683/kosdi.2021.12.31.890

[1] Choi, J.-M., Park, K.-W., Jeong, J.-G., Lee, Y.-K., Kim, G.-N., Choi, D.-C., Ko, M.-H. (2021). "Experimental study on the availability of fire detection using gas sensors for air quality measurement." Fire Science and Engineering Vol. 35, No.1, pp. 41-47. 10.7731/KIFSE.0759bab4

[2] Choi, S.G., Young, J.S., Park, S.M., Nam, Y.J., Kim, S.K. (2020). "Basic research on potential application of fire detection by measuring fire detection tendency of indoor air quality measurement factors." Fire Science and Engineering, Vol. 34, No. 1, pp. 37-46 . 10.7731/KIFSE.2020.34.1.037

[3] Kim, D.H., Jo, B.W. (2021). "A study on the development of a fire site risk prediction model based on initial information using big data analysis." Journal of The Korean Society of Disaster Information, Vol. 17, No. 2, pp. 245-253.

[4] Lee, H.J., Ryu, J.R., Chung, M.H., Kim, M.G., Sang, H. (2019). "Optimal control method of indoor air quality in apartment using integrated sensor for indoor environment." Proceedings of the Society of Air-Conditioning and Refrigerating Engineers of Korea, pp. 108-110.

[5] Park, H.-W. (2013). Experimental and Numerical Studies on Device Characteristics of Smoke and Heat Detectors. Ph.D. thesis, Daejeon University, Korea.

[6] Ryu, H.C. (2014). "Analysis on activation characteristic of heat detectors in a compartment fire." Journal of The Korean Society of Disaster Information, Vol. 10, No. 4, pp. 598-608. 10.15683/kosdi.2014.10.4.598

[7] Ryu, H.C. (2015). Analysis of Response Time of Heat Detectors by Installation Location and Fire Source in a Compartment Fire. Ph.D. thesis, Chungbuk National University, Korea.

[8] Son, G-S., So, S.H. (2021). "A study on fire alarm test of IoT multi-fire detector combined Smoke/CO and Smoke/Temperature sensors." Journal of The Korean Society of Disaster Information, Vol. 17, No. 2, pp. 236-244.

[9] Torkmahalleh, M.A., Goldasteh, I., Zhao, Y., Udochu, N.M., Rossner, A., Hopke, P.K., Ferro, A.R. (2012). "PM2.5 and ultrafine particles emitted during heating of commercial cooking oils." Indoor Air, Vol. 22, No. 6, pp. 483-491. 10.1111/j.1600-0668.2012.00783.x 22486983

Journal of the Society of Disaster Information ISSN:1976-2208(Print) 2671-5287(Online) 한국재난정보학회논문집

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