In this study, the fire risk of the stovepipe installed in the EPS panel was analyzed through the fire replay test. The fire risk of the stovepipe is well understood, and the installer had only vague speculation that the risk of fire would be lowered if the panel core was dug inside due to the risk of fire. Therefore, a demonstration experiment was conducted by installing a stovepipe line on the EPS panel and changing the angle of the panel from 0° to 30° in consideration of the installation angle of the residential firewood boiler. As a result of the experiment, it was confirmed that the remnant of the core material and the adhesive material remained. In addition, it was confirmed that ignition at 392°C was performed through TGA analysis of heat-resistant silicon used during stovepipe installation. The stovepipe can be ignited by the heat-resistant silicon and the remnants of the core material and adhesive material generated inside the stovepipe by creosote. I could confirm that. Furthermore, through these research results, a better construction method was suggested to contribute to the reduction of fire damage.
목차
Abstract 1. 서론 1.1 연구배경 및 목적 2. 본론 2.1 화재사례 2.2 재연실험 3. 실험 결과 분석 및 제언 4. 결론 References
화재의 과학적 감식, 원인규명 및 예방을 위한 학문과 기술의 발전을 도모하고, 산, 학, 연, 정의 상호 교류를 통한 화재예방과 조사 및 감식의 전문화와 함께 소방관련 정책방향 발전에 공한하며, 회원 및 화재 관련 분야의 국.내외 인사들과의 정보 교류를 위하여 설립되었다.
간행물
간행물명
한국화재감식학회 학회지 [Magazine of Fire Investigation Socity of Korea]