In modern society, buildings are becoming more complex, and the population is becoming more densely populated. Such large buildings require a variety of evacuation measures, as there is a high possibility of large-scale human casualties due to increased evacuation distance and evacuation time in the event of a fire. Strobe light and exit sign light are used as important evacuation equipment to provide early warning and evacuation directions. In this thesis, we conducted a fire simulation assuming that a fire occurrence point notification function and a strobe light function were added to equipment such as visual alarms and evacuation guidance, and compared and analyzed the difference in evacuation completion time with existing equipment. The scenarios for the simulation were divided into “general fire situations” and “fire location and evacuation exit guidance situation” and the differences in evacuation completion time in the event of a fire were compared and analyzed for each floor from the 1st floor to the 3rd floor. The maximum travel distance to complete evacuation in the case of a fire on the first floor decreased by 80.6 m and the evacuation completion time decreased by 329.4 seconds, and the maximum travel distance to complete evacuation in the case of a second-floor fire decreased by 28.5 m and the evacuation completion time by 438.8 seconds. During the fire on the third floor, the maximum distance decreased until evacuation was completed to 3.4 m, and the evacuation completion time was reduced by 355.6 seconds. It is expected that if the congestion level of evacuation routes is reduced by utilizing the congestion level of evacuation exits when fire alarm systems and evacuation equipment are activated, the evacuation completion time will be further shortened and evacuations will be carried out quickly and safely.

많은 승객이 이용하는 여객선 등, 선박의 사고 예방을 위해 안전과 관련된 규정이 매년 강화되고 선박에 적용하고 있지만 선 박에서의 사고는 감소하지 않고 있다. 선박에서의 화재 사고 시 화재 발생 위치에 따라 승객의 탈출 시간이 변화하고, 유해 요인에 의한 위험성이 증가할 수 있다. 화재 위치 변화에 따른 유해 요인들의 위험성과 탈출 시간지연의 원인을 파악하고, 시간지연을 감소시키는 방 안을 모색하기 위한 연구를 진행하였다. 선박 승객 거주 구역 화재 시 연소생성물의 유동과 승객의 탈출 과정을 확인하기 위해 FDS를 기반으로 하는 Pyrosim과 Pathfinder를 이용하여 화재 및 승객 피난 시뮬레이션을 진행하였다. 화재 발생 위치 변화에 따라 탈출로의 가시 거리 평균값은 3.1m에서 4.2m로 탈출 과정에서 안전하지 않고, 승객의 탈출 시간은 화재가 발생하지 않은 경우보다 9초에서 34초가 늘어 나는 것을 확인하였다. 안전성 향상 방안인 제연설비를 임의로 적용하여 동일 시뮬레이션 진행하였다. 화재 구역의 평균 가시거리는 14.9m에서 22.0m까지 증가하여 개선되는 것을 확인할 수 있다. 제연설비 설치 여부에 따라 0.8초에서 8.3초의 탈출 시간이 개선되었다. 해당 구역의 안전성 향상 방안을 적용한 결과, 적정한 제연설비가 작동된 이후로 연소생성물에 의한 승객의 위험성이 감소함을 확인할 수 있다.

우리나라 산불 발생에 관한 시계열적 특성은 다음과 같다. 1960년부터 2019년까지 연도별 산불 발생빈도는 약 16.6년을 주기를, 2003년부터 2019년까지 산불 발생빈도는 약 11.3개월의 주기를 갖는 것으로 확인되었고, 연도별, 월별 시계열은 안정된 경향을 보여 증가 혹은 감소하는 추세를 확인할 수는 없었다(P<0.05). 지역별 산불 발생 현황을 확인한 결과 경상북도에서 산불이 가장 많이 발생한 것으로 나타났고, 산불피해 면적은 강원도가 가장 넓은 특징을 보였다. 또한, 지역별 시계열적 주기성은 산불 발생빈도가 높은 순으로 FFT-Power가 높은 경향을 보였으나 공통적으로 약 11~12개월 사이의 주기를 갖는 것을 확인할 수 있었다. 또한, 요일별로 산불 발생빈도를 확인한 결과 요일별로 산불 발생빈도가 뚜렷하게 다르다는 결과를 얻을 수 있었다(P<0.001). 따라서 산불 발생빈도는 기상 현상 등 자연과학적인 요소와 함께 인문사회적인 요소 모두와 높은 관계에 있었다.

This study is to check waterproof by number of twists of fire hose and measure the first waterproof time to analyze the relationship between twists of fire hose and first waterproof time and waterproof by position of twists so as to suggest the efficient plan to prevent twists of fire hose. Ordinary fire hose did not make waterproof in case that position of twists was near the nozzle with twists 5 times or more, while anti-twist fire hose had no problem for waterproof only with delayed time. Like ordinary fire hose, anti-twist fire hose also showed the tendency to increase the waterproof time in proportion to the number of twists. In case that the position of twists was near waterproof port even with 10 times of twists in anti-twist fire hose, the first waterproof time was increase by 0.63 seconds on average without any problem for waterproof, which was somewhat faster than that in ordinary fire hose. With respect to the position of twists, waterproof of anti-twist fire hose was affected more as the number of twists was increased more near the nozzle rather than near the waterproof port, like ordinary fire hose. In summary, anti-twist fire hose equipped with anti-twist tool at the middle connection port and the nozzle showed a good waterproof performance with delayed waterproof time regardless of number of twists, as a solution for the twist problem of ordinary fire hose.

The objective of this study was to understand which type of fire hose should be placed in indoor fireplug box upon analyzing the preparation time between rack-type fire hose and reel-type one. With respect to the type of hose, rack-type stacking method was used and hose preparation time was measured with 5 times of repeat test, separating men and women. Study results reveal that preparation time of reel-type fire hose took longer than that of rack-type one in both men and women. For both rack-type hose and reel-type hose, preparation time by two persons took shorter than that by one man. Also, preparation time by three persons took shorted than that by two women. Preparation time for both rack-type hose and reel-type one by men took shorter than that by women. In summary, it was confirmed that rack-type hose could be prepared within shorter time than reel-type one. Since the size of drum set in the reel-type fire hose is relatively small, it had some difficulty in preparation of fire hose timely.

In this study, the purpose of this study was to examine the effect of twisting in the preparation of waterproofing in the process of unfolded donut-type staking method fire hoses in indoor hydrant system. The central pull-out method caused more twisting than the rolling method, and there was no significant difference in the number of twists according to the pull-out method in the case of male and female students. It was found that the time it took to untwist and prepare waterproofing was much shorter for male students. The angle valve and hose are connected, and the time to untwist and prepare for waterproofing after withdrawing the fire hose with the hose and nozzle connected was shorter than the unconnected state. In the rolling method, when a hose connected with two 15 m fire hoses was used and the angle valve-hose was connected, but the hose-nozzle was not connected, the least kinking occurred. The time to untwist and prepare for waterproofing was also the shortest. As a result, in the withdrawal method of the donut-type loaded fire hose in the indoor hydrant system, it is a rolling method rather than a central withdrawal method. With the angle valve and hose connected, unfold the fire hose with the hose and nozzle connected, if a large number of people unwind the twisted hose, the time to prepare for waterproofing can be shortened.

This study developed a scenario to understand the reaction rate and operational time according to RTI value of rate of rise detector in each type in case of fire mattress. In the results of analyzing the reaction rate and operational time of detector in each scenario, in case when installing a single detector, the elevated temperature per minute was raised to 8℃/min ~ 9℃/min. In case when installing two detectors, it was raised to 9℃/min ~ 10℃/min. In case when installing three detectors, it was raised to 10℃/min. The horizontal distance between detector and mattress was 1.8m~2.5m. Whenever the number of detectors was increased, the horizontal distance was decreased. The operational time of detector was within maximum 540 seconds and minimum 420 seconds. As the research tasks in the future, there should be the researches on the effects of reaction rate of detector on the evacuation in case of fire through the result value of RSET by setting up the latency until the detector operates, and the researches on the safety by understanding if the operational time of detector is suitable for the evaluation standard of performancecentered design.

In recent years after the Sewol Sank, the surroundings of Fire have rapidly changed and citizens need for Fire have been demanding very high. Under these situations, in order for satisfaction to all these demands, Seoul Metropolitan Fire & Disaster Headquarters(SMFDH) have made improvements of Golden Time in the field of disaster as the leader of Fire Department in Korea. SMFDH has been practicing many kinds of plans, or projects to achieve Gold Time of 55 types of disaster. However, There have been questioning about all these projects if they are working for the achievement. The purpose of this study is to scrutinize current projects for Golden Time Targeting focused on Mapo fire fighters as first responders and to cope with how to make them better for Seoul Citizens’ safety by using SPSS(Statistical Package for the Social Science) Statistics 24. The result of this study presents that how we can find to be all the project for Golden Time Targeting running well. And This study will be positively applied to Seoul fire policies or helped for setting them up better.

최근 건설 기술의 발달과 더불어 긴 지간을 갖는 사장교나 현수교의 건설이 증가되어 왔다. 긴 지간을 이용하는 이런 형태의 교량들은 해안이나 산간벽지의 교량을 건설하는데 적합하다. 그러나, 이러한 교량들의 케이블이나 상판들은 차량 충돌에 기인된 화재로 인하여 가끔 손상을 받아왔다. 화재에 노출된 케이블은 대형 참사를 야기시킬 수 있고, 구조요소로서의 중요한 역할을 할 수 없게 된다. 본 논문의 목적은 교량위의 차량 화재로 인한 사장교 케이블 안전성을 예측하고 평가하는데 있으며, 교량의 3차원 모델링에 있어서는 상용소프트웨어인 Solid-Works를 사용하였고, 사장교 케이블의 열전달해석과 유동해석에는 Cosmos-FloWorks를 이용하였다. 간편 해석을 위해, 방호책과 열원사이의 거리, 풍속, 케이블을 싸고 있는 파이프 끝단 높이는 고정 상태로 악조건으로 하고, 시간과 함께 변동되는 열원에 의한 케이블의 열전달해석과 유동해석을 하였다.

본 연구는 도시철도 터널내 화재시 구조체의 내화성능을 평가하기 위한 기준을 제시하고자 실시하였다. 현재 국내 도심의 지하철 터널 구간은 135㎞로써 그 규모가 세계 4위 이며 대도시들의 도시철도 터널건설의 증가와 그 연장이 길어짐에 따라 터널 내 화재사고가 갈수록 높아지고 있는 상황이다. 하지만 국내에는 도시철도 터널 화재에 대한 내화성능평가에 기본적으로 적용되는 시간-온도 곡선이 없다. 따라서 본 연구에서는 국내 도시철도 터널의 통행량, 차량 종류 등을 고려한 열방출율을 기초로 외국에서 제시된 시간-온도 곡선을 검토하였으며 국내 실정에 맞는 설계화재 모델을 제시하였다. 또한 제시된 설계화재모델에 대해 수치해석을 통하여 화재시 도시철도 터널 구조체의 온도분포를 산정하였다.