• Title/Summary/Keyword: LPG station

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A Study on the Quantitative Risk Assessment of Hydrogen-LPG Combined Refueling Station (수소-LPG 복합충전소 정량적 위험성평가에 관한 연구)

  • Kang, Seung Kyu
    • Journal of Energy Engineering
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    • v.28 no.4
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    • pp.29-34
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    • 2019
  • In this study, a quantitative risk assessment was carried out for a hydrogen complex station. The complex fueling station to be evaluated was hydrogen-LPG, and the components of each station were analyzed and the risk was evaluated. The final risk is assessed by individual and societal risks, taking into account the impact of damage and the frequency of accidents. As a result of individual risk calculation for the hydrogen-LPG fueling station that is the subject of this study, the hydrogen-LPG type fueling station does not show the unacceptable hazardous area (> 1 × 10E-3) proposed by HSE. The level of individual risk for both the public and the worker is within acceptable limits. In societal risk assessment, the model to be interpreted shows the distribution of risks in an acceptable range(ALARP, As Low As Reasonably Practicable). To ensure improved safety, we recommend regular inspections and checks for high-risk hydrogen reservoirs, dispensers, tube trailer leaks, and LPG vapor recovery lines.

Discussions on the Cause of Bucheon LPG Station Accident (부천 LPG 충전소 사고 원인에 대한 연구)

  • 윤재건
    • Journal of the Korean Society of Safety
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    • v.16 no.3
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    • pp.31-34
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    • 2001
  • Cause of Bucheon LPG refueling station accident could not be clearly verified because of opposite talking of men reponsible for the accident the accident, damaged by BLEVE and fire, and no systematic fire investigation. After two and half years, recently first judgement has been carried out. But competitive arguement is going on and first leak point of massive LPG will not be clearly identified with evidences acquired by now. This accident gave us many instructions and advices. Specially, massive LPG leak can result in pool fire and safety of underground-installed storage tank is proved by no damage in the strong BLEVE.

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A Study on the Estimation of Human Damage Caused by Vapor Cloud Explosion(VCE) in LPG Filling Station (LPG자동차충전소에서 증기운폭발로 인한 인명피해예측에 관한 연구)

  • Leem, Sa-Hwan;Huh, Yong-Jeong
    • Journal of the Korean Institute of Gas
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    • v.14 no.2
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    • pp.15-21
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    • 2010
  • The demand of gas as an eco-friendly energy source has being increased. With increasing the LPG demand, the number of LPG filling station. In this work, the influence on over-pressure caused by Vapor Cloud Explosion in gas station was calculated by using the Hopkinson's scaling law and injury effect by the accident to a human body was estimated by applying the probit model. As a result of the injury estimation conducted by using the probit model for leakage 10% of 20ton storage tank. The distances from LPG station for death and tympanum rupture are 36.5 and 290 meters, respectively.

The Component and Compositional Analysis of Trace Materials in LPG (LPG 잔류물질의 성분 및 조성 분석)

  • Kim, Yeong-Gu
    • Journal of the Korean Chemical Society
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    • v.46 no.4
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    • pp.317-323
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    • 2002
  • The composition of trace materials in domestic circulated LPG are determined. The sampling points are two cylinders of LPG cylinder re-inspection center, six vaporizer of LPG-supplying group facilities, and the compressed oil from one LPG station. In the trace materials from cylinder of LPG cylinder-reinspection center, alkene and diene derivative (No. of carbon ${\leq}9),$ aromatic compounds, and tarry chemicals(No. of carbon ${\geq}10)$ are 1.5~39.9%, 0.7%, 57.8~96.0%, respectively. While in the trace materials from LPG-supplying group facilities and in the oil from LPG station, tarry chemicals(No. of carbon>10) exceed 96.6%. Nine samples are classified into three clusters. One cluster is the sample of SE company cylinder-reinspection center(Euclidian distance between S company LPG cylinder-reinspection center and SE company cylinder-reinspection center=2.11), the other is the sample of SE company LPG cylinder-reinspection center(Euclidian distance between from samples of LPG-supplying group facilities including compressed oil from LPG station=0.110) the third is the samples of LPG-supplying group facilities(Euclidian distances among them<0.075). The compositions of samples from LPG-supplying group facilities are similar to those of oil from LPG station. Furthermore densities of samples from LPG-supplying group facilities and compressed oil in LPG station are 0.873, 0.873 [0.00798 (99% confidence limits) respectively. It was presumed that tarry chemicals had been leached from the compressed oil of LPG supplying facilities.

Validity of solar energy generation at the underused Space of LPG filling station (LPG충전소 유휴공간의 태양광발전설비 설치 유효성)

  • Lee, Minkyung;Kim, Jeonghwan;Lee, Jinhan;Joe, Youngdo;Lee, Yeonjae
    • Journal of the Korean Institute of Gas
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    • v.20 no.4
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    • pp.25-32
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    • 2016
  • The purpose of this study is safety evaluation of solar energy generation which is installed on the canopy at the LPG filling station. in case of a gas station, the solar energy generation was become legalization through a related law reform in 2008. Also, in case of a LPG filling station, the solar energy generation was become legalization through a related law reform in 2015. So, the related law that KGS CODE and Safety control of dangerous substances law and the case of installed solar energy generation in gas, LPG filling station was investigated. two scenarios are supposed for the CFD. Release of safety valve pipeline and ruptured dispenser leakage are the scenarios. The FLACS which developed GexCon in Norway was used for simulation. LPG dispersion to the upper side of canopy was very small with safety distance.

A Study on Consequence Analysis of LNG/LPG/Gasoline Station (LNG/LPG/가솔린 Station의 사고피해영향평가 비교)

  • Yoo, Jin-Hwan;Kim, Bum-Su;Lee, Heon-Seok;Ko, Euy-Seok;Lee, Gi-Baek
    • Journal of the Korean Institute of Gas
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    • v.13 no.3
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    • pp.54-60
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    • 2009
  • The advancement of industry have increased domestic energy demands and energy facilities such as storage facility, compressed gas pipe, station, and tank lorry. Also, concern about environment have diversified energy source to clean energy such as LNG. In these major energy facilities, major accident can happen to result in fire, explosion, toxic release and etc. In addition, it may cause chain accidents to the adjacent energy facilities. In this research, safety assessment was performed through the consequence analysis of LPG liquefied petroleum gas) station, gasoline station and LNG(liquiefied natural gas) station. The obtained result will be helpful to make a safety guideline of the LPG/LNG station built adjacent to the gasoline station.

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A Study on the Quantitative Analysis for Explosion of LPG Storage Tank (LPG 저장탱크의 폭발에 대한 정량적 영향평가에 관한 연구)

  • Leem, Sa Hwan;Huh, Yong Jeong
    • Journal of the Korean Institute of Gas
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    • v.17 no.3
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    • pp.1-7
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    • 2013
  • The influence of the over-pressure caused by Explosion in gas station was calculated by using the Hopkinson's scaling law and injury effect by accident to buildings and human bodies was estimated by applying the probit model. As a result, the injury estimation was conducted by using the probit model for leakage 10% of 20ton storage tank. The separate distances from LPG station for building(damage) and human(lung hemorrhage to death) are 260 and 30 meters, respectively.

Predicting and Preventing Damages from Gas Leaks at LPG Stations (LPG 충전소의 가스누출에 따른 피해예측 및 감소방안)

  • YANG-HO YANG;HA-SUNG KONG
    • The Journal of the Convergence on Culture Technology
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    • v.9 no.4
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    • pp.577-585
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    • 2023
  • This study applied ALOHA Program to predict the damage caused by fire and explosion predicted to occur from gas leakage at LPG stations and presented plans to prevent damages by diagramming the impact range and distance. The propane gas leakage from LPG stations causes human damage like breathing issues and property damage, including building destruction to residents in the surrounding areas. As a way to reduce this, first, the hazardous substance safety manager of the LPG station needs to check frequently whether the meters and safety valves are working properly to prevent leakage in advance. Second, the LPG stations' storage tanks should be worked by the person who received "hazardous substance safety manager training" under the provisions of the Act on the Safety Control of Hazardous Substances and has been appointed as a "hazardous substance safety manager" by the fire department. Third, LPG station's various safety device functions, such as overfill prevention devices, must be checked on a regular basis. Finally, wearing work clothes and shoes that prevent static electricity at LPG stations is highly recommended, as static can cause a fire when gas leaks.

The Hazard Assessment of Release and Dispersion of CNG Service Station (CNG 충전소의 누출$\cdot$확산에 대한 위험성 평가)

  • Choi Jong-Woon;Lee Su-Kyung
    • Journal of the Korean Institute of Gas
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    • v.4 no.3 s.11
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    • pp.53-58
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    • 2000
  • It was carried out consequence analysis(CA) of CNG (compressed natural gas) service station and we compared the results of CA of CNG service station with LPG service station which was installed by high Pressure gas law. The results of CA were that distance of CNG LFL was 1.5 times than the length of LPG LFL. Thermal radiation effect about CNG may not be showed damage of process facilities, but in the case of LPG, it was enough to have an large damage effect on a downtown. The thermal radiation of 37.5 $kw/m^2$ extended 12.6 m. Also, in the case of 12.5 $kw/m^2$ which was able to burn wood, the radiation effect of LPG is 3 times than CNG.

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A Study on the Economic Analysis for Installation Method of Storage Tank in LPG Filling Station (LPG 충전소 저장탱크의 설치방법에 따른 경제성 분석에 관한 연구)

  • Huh, Yong-Jeong;Lim, Ju-Yeon;Youm, Moo-Youl;Leem, Sa-Hwan
    • Journal of the Korean Institute of Gas
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    • v.20 no.1
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    • pp.23-28
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    • 2016
  • "Eco-friendly" automobile has been a symbol of the Low Carbon, Green Growth strategy that Korea government decided to pursue. In line with the recent policy trend, a number of new LPG stations are being constructed. However, communities where mass storage are installed have been suffered from risk of serious accidents. In this work, economic analyses for different installation methods has been performed to prevent accidents in LPG filling station. The review shows that the underground storage is beneficial for the maintenance and the effective land use.