• International Journal of Naval Architecture and Ocean Engineering
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• 제11권1호
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• pp.572-583
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• 2019

This paper aims to assess the applicability of the Runge Kutta Discontinuous Galerkin-Direct Ghost Fluid Method to the internal explosion inside a water-filled tube, which previously was studied by many researchers in separate works. Once the explosive charge located at the inner center of the water-filled tube explodes, the tube wall is subjected to an extremely high intensity fluid loading and deformed. The deformation causes a modification of the field of fluid flow in the region near the water-structure interface so that has substantial influence on the response of the structure. To connect the structure and the fluid, valid data exchanges along the interface are essential. Classical fluid structure interaction simulations usually employ a matched meshing scheme which discretizes the fluid and structure domains using a single mesh density. The computational cost of fluid structure interaction simulations is usually governed by the structure because the size of time step may be determined by the density of structure mesh. The finer mesh density, the better solution, but more expensive computational cost. To reduce such computational cost, a non-matched meshing scheme which allows for different mesh densities is employed. The coupled numerical approach of this paper has fewer difficulties in the implementation and computation, compared to gas dynamics based approach which requires complicated analytical manipulations. It can also be applied to wider compressible, inviscid fluid flow analyses often found in underwater explosion events.

• 한국지열·수열에너지학회논문집
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• 제18권3호
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• pp.7-18
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• 2022

Secondary batteries used in electric vehicles have a potential risk of ignition and explosion. Various safety measures are being taken to prevent these risks. A numerical study was performed using a computational fluid dynamics code on the cases where pressure relief vents that can reduce the blast overpressures of batteries were installed in the through-compression test room, short-circuit drop test room, combustion test room, and immersion test room in facilities rleated to battery used in electric vehicles. This study was conducted using the weight of TNT equivalent to the energy release from the battery, where the the thermal runaway energy was set to 324,000 kJ for the capacity of the lithium-ion battery was 90 kWh and the state of charge (SOC) of the battery of 100%. The explosion energy of TNT (△H_TNT) generally has a range of 4,437 to 4,765 kJ/kg, and a value of 4,500 kJ/kg was thus used in this study. The dimensionless explosion efficiency coefficient was defined as 15% assuming the most unfavorable condition, and the TNT equivalent mass was calculated to be 11 kg. The internal explosion generated in a test room shows the very complex propagation behavior of blast waves. The shock wave generated after the explosion creates reflected shock waves on all inner surfaces. If the internally reflected shock waves are not effectively released to the outside, the overpressures inside are increased or maintained due to the continuous reflection and superposition from the inside for a long time. Blast simulations for internal explosion targeting four test rooms with pressure relief vents installed were herein conducted. It was found that that the maximum blast overpressure of 34.69 bar occurred on the rear wall of the immersion test room, and the smallest blast overpressure was calculated to be 3.58 bar on the side wall of the short-circuit drop test room.

• 대한조선학회논문집
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• 제60권1호
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• pp.10-19
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• 2023

Blast Hardened Bulkhead (BHB) is an important measure that can increase the ship's survivability as well as protect the lives of the crew by mitigating the damage extent caused by an internal explosion in the ship. In particular, both the pressure and the shock impulse should be considered when designing the BHB against reflected shock waves having a high pressure with a short duration. This study proposes a design method for BHB that considers both the pressure and the shock impulse generated during the internal explosion. In addition, analysis and design concepts for accident loads such as explosion, fire, and collision of NORSOK and DNVGL, one of the international design guidelines for the curtain plate type blast hardened bulkhead type applied by the Korean Navy, are utilized. If this method is applied, it is expected that it can be used as a design concept for the pressure as well as the shock impulse of the explosion load of the curtain plate.

• 화약ㆍ발파
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• 제40권4호
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• pp.1-14
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• 2022

화약류 간이저장소에 대한 현재의 규정이 적정한지를 검토할 목적으로 내부 폭발이 표준적인 저장소의 구조적 안정성에 미치는 영향을 FEM 해석과 현장 실험을 통해 분석하였다. 연구 결과, 에멀젼 계열 폭약 15 kg에 대한 기존 저장소 구조물의 방폭 성능이 충분하지 않은 것으로 나타났다. 따라서 여기에 대한 하나의 대안으로서 폭약을 분할하는 방법을 상정하고 순폭실험을 수행하였다. 실험을 수행한 결과, 폭약을 분할하는 방법이 예상대로 잘 작동하는 것을 확인하였으며, 시험 결과에 근거하여 적정한 분할 폭약량도 결정하였다. 또한, 저장소 구조물 상부를 개방하는 방법을 시험한 결과, 폭발압력이 신속하게 배출되어 구조물 손상이 크게 저감되는 것을 확인하였다. 이러한 구조물 형태는 화약류 간이저장소에 대한 새로운 설계기준으로 사용될 수 있을 것이다.

• 한국화재소방학회논문지
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• 제30권4호
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• pp.111-120
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• 2016

본 논문은 휴대폰 배터리의 폭발 및 화재 위험성을 분석하기 위한 실험적 연구로서, 실험은 스마트폰 배터리로 사용되고 있는 리튬-이온 배터리를 대상으로 하여 사용상 부주의 또는 이상상태 등에서 폭발 및 화재가 발생될 가능성이 있는 과충전, 내부단락 및 외부단락 그리고 열충격에 의한 실험을 진행하였다. 리튬-이온 배터리는 과충전 및 외부단락 실험의 경우 보호회로가 정상적으로 작동될 때는 폭발 및 화재 위험성이 없었으나, 보호회로가 고장상태를 가정하였을 때 폭발 및 화재 위험성이 크게 나타났다. 내부단락 및 열충격 실험의 경우 충전상태에 따라 위험성에 차이가 나타났다. 즉, 완방전 상태에서는 폭발 및 화재 위험성이 낮았으나, 완충전 상태에서는 폭발 및 화재 위험성이 높게 나타나는 것을 확인할 수 있었다. 실험결과 휴대폰 배터리의 폭발 및 화재 위험성을 최소화하기 위해서는 보호회로 고장시 알람장치 및 배터리 케이스 강화 그리고 고온방지를 위한 냉각장치 등의 안전장치의 강화가 필요할 것으로 생각된다.

• 전기학회논문지
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• 제66권12호
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• pp.1836-1843
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• 2017

In this paper, we investigated fire cases those are believed to be caused by explosion of a electrolytic motor start capacitor. Using two types of commercially available electrolytic motor start capacitors, capacitor current and the possibility of capacitor explosion were tested. And the ignition possibility of the internal material leaked from a capacitor was also tested. In addition, experiments were conducted to see if the fire could spread when a capacitor was exposed to an external flame. From our test we observed that the current of the electrolytic motor start capacitor rose continuously to a certain level by product, if the capacitor was continuously energized with working voltage, and then the capacitor was exploded. The gas and liquid leaked from the capacitor by the explosion could ignite by an electric arc and an external flame. The capacitor current at explosion was different product by product, but each product had a certain current level at explosion. And the increase rate of the capacitor current until explosion was 24% and 31% for the products used in the experiment. We proposed the capacitor explosion prevention method that cuts off power when the capacitor current rises to a certain threshold level. The proposed method can be used if the current of the applied electrolytic motor start capacitor rises continuously and then the capacitor is exploded at a certain current level when the capacitor is energized continuously.

• 한국공간구조학회논문집
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• 제16권1호
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• pp.105-113
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• 2016

Since the 1980s, the number of large space buildings in Korea has consistently been increasing due to large scale international competitions such as the Olympics and the World Cup, demands for environmental improvement, and development of structural systems. Due to these reasons, this paper conducted a comparative analysis on terrorism risk factors of large space structure and skyscrapers in Korea. The results suggest that the total risk level of high-rise and large space structure was "medium level risk" and that the terrorism risk level for large space structure was as high as that for high-rise buildings. As it relates to the risk levels depending on scenarios, terrorism risks to large space structure were higher than high-rise buildings in the "internal explosion" and "internal intrusion" categories. And the results of analyzing explosion-related scenarios except for CBR suggest that terrorism risks to large space structure were highest when it comes to Internal-Explosive followed by Internal-Intrusion and Explosive-Zone I; and the results showed a regular pattern. On the other hand, in the case of high-rise buildings, terrorism risks were highest in Internal-Explosive followed by Explosive-Zone I and Explosive-Zone II; and the results showed an irregular pattern.

• 한국화재소방학회논문지
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• 제34권2호
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• pp.86-93
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• 2020

본 연구는 옥외저장탱크에서 발생한 화재·폭발사고의 근본적인 사례분석을 통해 저장탱크의 안전을 유지할 목적으로 수행되었다. 이 사고는 저장탱크 야드에 사업장 외에서 날아온 풍등이 저장탱크 주변 잔디에 떨어지며 발생한 잔재 화재가 서서히 확산되어 탱크 내부의 유증기와 만나 폭발·화재로 이어진 사고였다. 사고의 원인을 밝혀내기 위하여 CCTV영상분석을 통한 대기확산 조건 도출, 전산유체역학을 이용한 풍향 분석, 플러팅 루프가 최저 위치일 때의 탱크 내부 유증기 발생량, 최고 위치일 때의 탱크 내부 유증기 거동을 통하여 저장탱크의 폭발이 일어난 원인을 밝혀내어 저장탱크의 레벨을 내부부상형 지붕 이하로 유지했을 경우 위험물이 충전되면서 그 공간에 있던 유증기가 내부 부상지붕위에 정체될 가능성이 있으므로 저장탱크의 Low liquid level이 폰튠 서포트 밑에 위치하지 않도록 운전절차를 개선하고, 오픈 벤트에는 화염방지기를 설치하여 화염이 저장탱크로 유입하지 못하도록 하는 대책을 제시하고자 한다.

• 화약ㆍ발파
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• 제38권4호
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• pp.26-36
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• 2020

지하공간의 이용범위 확장 및 활용이 증가함에 따라 테러리스트들에 의한 지하 내부 폭발의 발생 가능성이 증가하고 있다. 본 연구에서는 심도 50m의 심도에 굴착된 원형 터널을 모델링한 후, 터널의 내부에 폭발하중을 가하였다. 폭발하중은 ATF(Bureau of Alcohol, Tobacco, and Firearms)에서 제시하는 6종류의 운반용 차량에 대한 최대 폭약량의 폭발하중을 산정하였다. 원형 터널 주변 지반은 국내 터널 설계에서 제시하는 지보패턴에 따른 3종류의 암반등급을 선정하였다. 비선형 동적해석을 수행하여 폭발하중과 지반 특성을 매개변수로 지표 변위를 분석하여 지상 구조물의 영향에 대해 평가하였다. 해석결과, 1등급암에 대해서는 지반의 융기에 대한 영향을 고려해야 하며, 2등급암과 3등급암은 부등침하에 대한 영향을 고려해야 한다. 특히, 3등급암은 40m 이내의 지상 구조물에 대해서는 정밀 분석이 요구된다. 또한 지표 변위는 탄성계수에 의한 영향이 주요인인 것으로 판단된다.

• 소성∙가공
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• 제18권1호
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• pp.59-66
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• 2009

In this study, V-notch part has been considered as one of safety components in rectangular cup used for mobile device. This kind of safety component in rectangular cup with the V-notch part, which controls adequately the increased internal pressure in the rectangular cup, plays an important role to prevent the explosion from the excessive internal pressure. The protecting mechanism on the mobile device against the explosion is that a series of fracture on the V-notch part at the critical internal pressure level occurs. Therefore, it is very crucial to estimate accurately the working pressure range of the safety device. Relationship between the working internal pressure and fracture phenomenon at V-Notch part was investigated through numerical analysis using ductile fracture criteria. Integral value, I, of the used ductile fracture criteria was calculated from effective stress and strain, and then the bursting pressure of the V-notch part was extracted. Comparisons between the estimated and experimental results show that this systematic approach to predict bursting pressure using the ductile fracture criteria gives fairly good agreements.