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다국어 초록 (Multilingual Abstract)

Lots of orders of special vessels and offshore plants for developing the resources in deepwater have been increased in recent. Because the most of accidents on those structures are caused by fire and explosion, many researchers have been investigated quantitatively to predict the cause and effect of fire and explosion based on both experiments and numerical simulations. The first step of the evaluation procedures leading to fire and explosion is to predict the dispersion of flammable or toxic material, in which the released material mixes with surrounding air and be diluted. In particular turbulent mixing, but density differences due to molecular weight ore temperature as well as diffusion will contribute to the mixing. In the present paper, the numerical simulation of hydrogen dispersion inside a simple-shaped offshore structure was performed using a commercial CFD program, ANSYS-CFX. The simulated results for concentration of released hydrogen are compared to those of experiment and other simulation in Jordan et al.(2007). As a result, it is seen that the present simulation results are closer to the experiments than other simulation ones. Also it seems that the hydrogen dispersion is closely related to turbulent mixing and the selection of the turbulence model properly is significantly of importance to the reproduction of dispersion phenomena.

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참고문헌 (Reference)

1 석준, "해양플랜트의 화재 및 폭발 예측을 위한 메탄 연소의 CFD 시뮬레이션" 한국해양공학회 27 (27): 59-68, 2013

2 Middha, P., "Validation of CFDmodel for Hydrogen Dispersion" 22 (22): 1034-1038, 2009

3 Yaldizli, M., "The Structure of Ppartially Premixed Methane Flames in High-intensity Turbulent Flows" 154 (154): 692-714, 2008

4 Ogami, Y., "Simulation of Combustion by Vortex Method" 39 (39): 592-603, 2010

5 Jordan, T., "Results of the Hysafe CFD Validation Benchmark SBEPV5" 2007

6 Gobby, D., "Piloted methane jet flame" ANSYS CFX 2004

7 Barlow, R., "Piloted CH4/Air Flames C, D, E, and F - Release 2.1. TNF Workshop"

8 Germanischer Lloyd(GL), "Consequence Evaluation (Fire, Release, Explosion, Dispersion), including CFD" Safety & Risk Management Services

9 Perkovic, L., "CFD Simulation of Methane Jet Burner" 2009

10 Wilkening, H., "CFD Simulation of Light Gas Release and Mixing in the Battelle Model-Containment with CFX" 238 (238): 618-626, 2008

1 석준, "해양플랜트의 화재 및 폭발 예측을 위한 메탄 연소의 CFD 시뮬레이션" 한국해양공학회 27 (27): 59-68, 2013

2 Middha, P., "Validation of CFDmodel for Hydrogen Dispersion" 22 (22): 1034-1038, 2009

3 Yaldizli, M., "The Structure of Ppartially Premixed Methane Flames in High-intensity Turbulent Flows" 154 (154): 692-714, 2008

4 Ogami, Y., "Simulation of Combustion by Vortex Method" 39 (39): 592-603, 2010

5 Jordan, T., "Results of the Hysafe CFD Validation Benchmark SBEPV5" 2007

6 Gobby, D., "Piloted methane jet flame" ANSYS CFX 2004

7 Barlow, R., "Piloted CH4/Air Flames C, D, E, and F - Release 2.1. TNF Workshop"

8 Germanischer Lloyd(GL), "Consequence Evaluation (Fire, Release, Explosion, Dispersion), including CFD" Safety & Risk Management Services

9 Perkovic, L., "CFD Simulation of Methane Jet Burner" 2009

10 Wilkening, H., "CFD Simulation of Light Gas Release and Mixing in the Battelle Model-Containment with CFX" 238 (238): 618-626, 2008

11 Det Norske Veritas(DNV), "Accident Statistics for Floating Offshore Units on the UK Continental Shelf 1980- 2005" Health and Safety Executive(HSE)

연월일	이력구분	이력상세
2023	평가예정	계속평가 신청대상 (등재유지)
2018-01-01	평가	우수등재학술지 선정 (계속평가)
2015-01-01	평가	등재학술지 유지 (등재유지)
2011-01-01	평가	등재학술지 유지 (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2007-01-01	평가	등재학술지 유지 (등재유지)
2004-01-01	평가	등재학술지 선정 (등재후보2차)
2003-01-01	평가	등재후보 1차 PASS (등재후보1차)
2001-07-01	평가	등재후보학술지 선정 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	0.36	0.36	0.3
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.29	0.28	0.548	0.03

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