• Title/Summary/Keyword: BLEVE effects

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A Study on the Probability of BLEVE of Above-ground LP Gas Storage Tanks Exposed to External Fire (지상식 LPG 저장탱크의 외부화재에 의한 BLEVE 가능성 해석)

  • Lee Seung-Lim;Lee Young-Soon
    • Journal of the Korean Institute of Gas
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    • v.7 no.1 s.18
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    • pp.19-23
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    • 2003
  • The purpose of this thesis is to investigate the BLEVE probability of LP gas storage tanks which are relatively more dangerous, by the deductive calculating method using the results of Birk's pilot tank test and the required heat capacity of BLEVE. The result that BLEVEs can occur in only above 43.68 percent of liquid filling level under $600^{\circ}C$ of tank pate temperature and $53^{\circ}C$ of inner liquid temperature, was obtained and will be useful for preventing the BLEVE of LP gas storage tanks in fire sites. In addition, this research showed conditions of external leak and fire causing BLEVE, based on 15ton capacity of LP gas tank which has the same specifications as those in Puchon LP gas filling station accident. The result of the calculation is that the minimum pool fire conditions of BLEVE are above 7.2mm equivalent diameter under a liquid release condition and above 17.6mm equivalent diameter under a two-phase release condition. In the end, the result of calculating the pool size corresponding the above conditions using EFFECTS version 2.1, concludes that a minimum of 3.3 meters of diameter and 10.4 meters of height should be needed for BLEVE outbreak.

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Analysis of LPG Facility Siting Considering BLEVE (BLEVE를 고려한 LPG 시설 Siting 분석)

  • Kim, Taebeom;Lee, Kyounglim;Lee, Juhee;Jung, Seungho;Lee, Kunmo
    • Journal of the Korean Society of Safety
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    • v.31 no.2
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    • pp.26-32
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    • 2016
  • In previous studies on LPG siting in Korea, the scope have not included the probability of the secondary events of adjacent LPG tanks or structures from an explosion source. Therefore, it is essential to first identify the phenomenon which can be caused by BLEVE and then, properly assess their effects to each target including secondary event. In this study, we calculated the effects from a potential BLEVE of 15 ton LPG tank causing damages of storage tanks (LPG), structures and human using Phast ver. 6.7 and then suggested three risk zones (Zone I, II, III) assuming the consequences such as overpressure, heat radiation and missile effect by fragments. Zone I and II are divided at the line of 50% occurrence of the secondary event. Zone II and III are divided by Individual Risk(IR). The zone approach in this study can be used for more effective and safer Land Use Planning (LUP) for the future.

A Study on Damge Effect from Boiling Liquid Expanding Vapor Explosion(BLEVE) of LPG Charging Facility (LPG 충전소의 BLEVE 현상에 따른 피해효과 분석)

  • Roh Sam-Kew;Kim Tae-Hwan;Ham Eun-Gu
    • Journal of the Korean Institute of Gas
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    • v.3 no.3 s.8
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    • pp.45-50
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    • 1999
  • The LPG refueling station's explosion at Bucheon city was a major accident which with rare frequency of occurrence and large damage effect. Therefore, to prevent similar accident in the future from LPG charging stations which located in urban area. It needs to identify the damage effects of such facilities by comparing theoretically quantities risk and actual damage. The BLEVE effects from the accident showed similar damage effect in case of heat flux, however, the overpressure level reflected at the reduced distance by $15\%$. The structure damage to the near by area showed comparatively large heat radiation damage to the concrete structure strength and shape changes through heat flux while the overpressure effect was small.

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Development of a Tool for Predicting the Occurrence Time of BLEVE in Small LPG Storage Tanks (LPG소형저장탱크 BLEVE 발생 시점 예측 툴 개발)

  • Chae, Chung Keun;Lee, Jae Hun;Chae, Seung Been;Kim, Yong Gyu;Han, Shin Tak
    • Journal of the Korean Society of Safety
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    • v.35 no.4
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    • pp.74-83
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    • 2020
  • In Korea, about 110,000 LPG small storage tanks of less than three tons have been installed in restaurants, houses and factories, and are used as LPG supply facilities for cooking, heating and industrial use. In the case of combustible liquefied gas storage tanks, the tank may rupture due to the temperature increase of the tank steel plate (approximately 600℃) even when the safety valve is operating normally, causing large-scale damage in an instant. Therefore, in the event of a fire near the LPG small storage tank, it is necessary to accurately predict the timing of the BLEVE(Boiling Liquid Expanding Vapour Explosion) outbreak in order to secure golden time for lifesaving and safely carry out fire extinguishing activities. In this study, we have first investigated the results of a prior study on the prediction of the occurrence of BLEVE in the horizontal tanks. And we have developed thermodynamic models and simulation program on the prediction of BLEVE that can be applied to vertical tanks used in Korea, have studied the effects of the safety valve's ability to vent, heat flux strength of external fires, size of tanks, and gas remaining in tanks on the time of BLEVE occurrence and have suggested future utilization measures.

A Study on Damage Analysis Safety Distance Setting for LPG BLEVE (LPG BLEVE 피해분석 및 안전거리 설정에 관한 연구)

  • Kim, Jonghyuk;Lee, Byeongwoo;Kim, Jungwook;Jung, Seungho
    • Journal of the Korean Society of Safety
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    • v.35 no.6
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    • pp.25-31
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    • 2020
  • Boiling Liquid Expanding Vapor Explosion(BLEVE) can cause not only economic damage to the plant but also serious casualties. LPG accidents account for 89.6 percent of all accidents caused by gas leaks in Korea over the past nine years, while casualties from accidents also account for 73 percent of all accidents, according to statistics from the Korea Gas Safety Corporation. In addition, a potential explosion and a fire accident from one LPG storage tank may affect the nearby storage tanks, causing secondary and tertiary damage (domino effect). The safety distance standards for LPG used by LPG workplaces, charging stations, and homes in Korea have become stricter following the explosion of LPG charging stations in Bucheon. The safety distance regulation is divided into regulations based on the distance damage and the risk including frequency. This study suggests two approaches to optimizing the safety distance based on the just consequence and risk including frequencies. Using the Phast 7.2 Risk Assessment software by DNV GL, the explosion overpressure and heat radiation were derived according to the distance caused by BLEVE in the worst-case scenario, and accident and damage probability were derived by considering the probit function and domino effect. In addition, the safety distance between LPG tanks or LPG charging stations was derived to minimize damage effects by utilizing these measures.

The Study on the Quantitative Analysis in LPG Tank's Fire and Explosion (LPG 저장탱크에서의 화재$\cdot$폭발에 관한 정량적 영향 평가에 관한 연구)

  • Bae Sung-Jin;Kim Byung-Jick
    • Journal of the Korean Institute of Gas
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    • v.3 no.1
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    • pp.21-26
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    • 1999
  • Chemical plant's fire and explosion does not only damage to the chemical plants themselves but also damage to people in or near of the accident spot and the neighborhood of chemical plant. For that reason, Chemical process safety management has become important. One of safety management methods is called 'the quantitative analysis', which is used to reduce and prevent the accident. The results of the quantitative analysis could be used to arrange the equipments, evaluate the minimum safety distance, prepare the safety equipments. In this study we make the computer program to make easy to do Quantitative analysis of the accident. The output of the computer program is the magnitude of fire(pool fire and fireball) and explosion(UVCE and BLEVE) effects. We used the thermal radiation as a measure of fire magnitude and used the overpressure as a measure of explosion magnitude. In case of BLEVE, the fly distance of fragment can be evaluated. Also probit analysis was done in every case. As the case study, Buchun LPG explosion accident in Korea was analysed by the program developed. The simulation results showed that the permissible distance was 800m and probit analysis showed that 1st degree bum, 2nd degree burn, and death distances are 450, 280, 260m, respectively the simulation results showed the good agreement with the results from SAFER PROGRAM made by Dupont.

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A Study on Damage Effect from Major Accident of LPG Charging Facility - A case study of an LPG Charging and Automotive Outlet - (LPG 충전소 중대사고의 피해효과에 관한 연구 - 부천 LPG충전소 사고 사례를 중심으로 -)

  • Roh, Sam-Kew;Kim, Tae-Hwan;Ham, Eun-Gu;Hong, Chang-Moon
    • Korean Security Journal
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    • no.2
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    • pp.83-98
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    • 1999
  • The LPG station's explosion at Bucheon city was a major accident which with rare frequency of occurrence but large damage effect. Therefore, to prevent similar accident in the future from LPG chargings stations which located at inner urban area, it needs to identify the damage effects of such facilities by comparing theoretically quantities risks-PHAST. The BLEVE effects from the accident showed similar level in case of heat flux, however, the over pressure level reflected at reduced distance. The structure damage to the nearby area showed comparatively large reduction of concrete strength and shape changes through by heat effect while the overpressure effect was small.

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Reinforced concrete wall as protection against accidental explosions in the petrochemical industry

  • Ambrosini, Daniel;Luccioni, Bibiana Maria
    • Structural Engineering and Mechanics
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    • v.32 no.2
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    • pp.213-233
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    • 2009
  • In this paper the study of a reinforced concrete wall used as protection against accidental explosions in the petrochemical industry is presented. Many alternatives of accidental scenarios and sizes of the wall are analyzed and discussed. Two main types of events are considered, both related to vessel bursts: Pressure vessel bursts and BLEVE. The liberated energy from the explosion was calculated following procedures firmly established in the practice and the effects over the structures and the reinforced concrete wall were calculated by using a CFD tool. The results obtained show that the designed wall reduces the values of the peak overpressure and impulse and, as a result, the damage levels to be expected. It was also proved that a reinforced concrete wall can withstand the blast load for the considered events and levels of pressure and impulse, with minor damage and protect the buildings.