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http://dx.doi.org/10.7842/kigas.2018.22.3.20

An Accident Investigation of Fire and Explosion Case During Painting Work in the Tank of the Crude Oil Carrier  

Ahn, Byung-Joon (Korea Occupational Safety and Health Agency)
Jung, Ki-Hyuk (Korea Occupational Safety and Health Agency)
Rhim, Jong-Kuk (Korea National University of Transportation)
Publication Information
Journal of the Korean Institute of Gas / v.22, no.3, 2018 , pp. 20-31 More about this Journal
Abstract
There was an amazing growth in the korean shipbuilding industry considering the industrial magnitude and the technical level. On the contrary of the growth, there are a number of accidents in the shipbuilding yard. According to the statistic data of the industrial accident in the last 7 years, the number of accidental fatalities in shipbuilding industries are 1.48 ‱ which are over more than doubles of the average in the Korean industries, 0.66 ‱. Thus, through an accident investigation of fire and explosion case during painting work in the tank of the crude oil carrier, it have been tried to diagnose actual conditions in the shipbuilding yards.
Keywords
fire and explosion; shipbuilding; painting work; accident investigation;
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  • Reference
1 Clarkson research, "Shipbuilding intelligence network", UK (2017)
2 Kim, J., "A analysis of productivities in the shipbuilding industry", Issuepaper, Korea productivity center, pp.17-19, (2014)
3 KOSHA, "Case study on prevention of fire/explosion accidents caused by chemical substances in small/medium sized construction sites", Jol. Korea saf. Manag. Sci., Vol. 16, No. 3, pp. 63-70, (2014)
4 Sklet, S., "Method for accident investigation", Norwegian university of science and technology, Norway, (2002)
5 Kosha, "Industrial accident data base", Kosha, (2017)
6 KS, "Test methods for flash point of crude oil and petroleum products - determination of flash point - tag closed cup method, KS M 2010", Korean standards association, Korea, (2008)
7 DIN, "Determining the ignition temperature of petroleum products, DIN 51749", Deutsche industrie normen, German, (2003)
8 ACGIH, "Industrial ventilation 23rd edition", American conference of governmental industrial hygienists, USA, (1998)
9 Yoo, B. H., "Guidelines to prevent incidents cuased by electrostatics, Kosha guide E-89-2013", Kosha, Korea, (2013)
10 Hansen, O. R., Storvik, I. E. and van Wingerden, K., "Validation of CFD-models for gas explosion, FLACS is used as example. Model description, experiences and recommendations for model evaluation", European meeting on chemical industry and environment, 1-3 September, p16, Poland, (1999)