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http://dx.doi.org/10.26748/KSOE.2018.6.32.5.310

Heat Transfer Characteristics of Bulkhead Penetration Piece for A60 Class Compartment I: Transient Thermal  

Park, Woo-Chang (Department of Naval Architecture and Ocean Engineering, Mokpo National University)
Song, Chang Yong (Department of Naval Architecture and Ocean Engineering, Mokpo National University)
Na, Ok-Gyun (Hyundai-Samho Heavy Industry Co. Ltd.)
Publication Information
Journal of Ocean Engineering and Technology / v.32, no.5, 2018 , pp. 310-323 More about this Journal
Abstract
In order to protect lives and prevent large-scale injuries in the event of a fire on a ship or an offshore plant, most classification societies are strengthening their fire resistance designs of relevant cargo holds and accommodation compartments to keep flames from being transferred from a fire point to other compartments. Particularly in critical compartments, where flames should not propagate for a certain period of time, such as the A60 class division, both the airtightness and fire-resistant design of a piece passing through a bulkhead are subject to the Safety of Life at Sea Convention (SOLAS) issued by the International Maritime Organization (IMO). In order to verify the suitability of a fire-resistant design for such a penetrating piece, the fire test procedure prescribed by the Maritime Safety Committee (MSC) must be carried out. However, a numerical simulation should first be conducted to minimize the time and cost of the fire resistance test. In this study, transient thermal analyses based on the finite element method were applied to investigate the heat transfer characteristics of a bulkhead penetration piece for the A60 class compartment. In order to determine a rational bulkhead penetration piece design, the transient heat transfer characteristics according to the variation of design parameters such as the diameter, length, and material were reviewed. The verification of the design specification based on a numerical analysis of the transient heat transfer performed in this study will be discussed in the following research paper for the actual fire protection test of the A60 class bulkhead penetration piece.
Keywords
Ship and offshore plant fire accident; A60 class compartment; Bulkhead penetration piece; Transient heat transfer analysis; Penetration piece design;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Soe, Y.H., Tanabe, I., Iyama, T., Da Cruz, J.R., 2012. Estimation Tool for Optimum Cutting Condition of Difficult to Cut Materials. Journal of Machine Engineering, 12(1), 76-88.
2 Yunus, A.C., Afshin, J.G., 2012. Heat and Mass Transfer:Fundamentals and Applications. 4th Edition, McGraw-Hill Education Korea, Korea.
3 Zhou, B., Han, X,. Guo, W., Liu, Y., Tan, S.K., 2017. Numerical and Experimental Study on Cutting Access Opening in Ship Structure. Journal of Ship Production and Design, 33(1), 12-23.   DOI
4 ABS, 2018. Mobile Offshore Drilling Units - Part 5 Fire and Safety. Rules for Building and Classing, USA.
5 Barletta, A., Lazzari, S., Zanchini, E., Terenzi, A., 2008. Transient Heat Transfer from an Offshore Buried Pipeline during Start-up Working Conditions. Heat Transfer Engineering, 29(11), 942-949.   DOI
6 Goodfellow, 1993. Metals, Alloys, Compounds, Ceramics, Polymers, Composites Catalogue 1993/94. GoodfellowMetals Ltd., Cambridge.
7 Huh, C., Kang, S.G., Hong, S., Choi, J.S., Baek, J.H., 2008. Thermal-Hydraulic Analysis of Pipeline Transport System for Marine Geological Storage of Carbon Dioxide. Journal of Ocean Engineering and Technology, 22(6), 88-94.
8 IMO, 2010. International Convention for the Safety of Life at Sea. SOLAS 1999/2000 Amendment, UK.
9 Kothandaraman, C.P., Subramanyan, S., 2004. Heat and Mass Transfer Data Book. 5th Edition, New Age International (P) Ltd., India.
10 Kang, G.I., Kwak, S.Y., Park, C.S., 2017. Design and Evaluation of the Thermal Capability to Secure a Working Time of Cryogenic Explosion-proof Camera in LNG Carrier Tank. International Journal of Naval Architecture and Ocean Engineering, 9, 568-576.   DOI
11 Lee, J., Song, C.Y., 2013. Estimation of Submerged-arc Welding Design Parameters using Taguchi Method and Fuzzy Logic. Journal of Engineering Manufacture, 227(4), 532-542.   DOI
12 Lee, J.C., Seo, Y.K., Lee, C.J., 2012. A Study on the Anti-icing Performance Evaluating and Design Guide by Heating Coil for Upper Deck of Icebreaking Vessels. Journal of the Society of Naval Architects of Korea, 49(6), 541-549.   DOI
13 Moon, J.G., Park, J.C., Kwon, Y.H., Yoo W.S., Ahn, S.W., 2010. Study of Heat Transfer and Safety Evaluation for Heating Coils in the Fuel Tank of a Ship. Journal of Ocean Engineering and Technology, 24(5), 22-30.
14 MSC(Maritime Safety Committee), 2010. Adoption of the International Code for Application of Fire Test Procedures. MSC.307(88), UK.
15 MSC software, 2017. MSC.NASTRAN User's Manual. MSC software, USA.
16 Murawski, L., 2018. Thermal Interaction Between Main Engine Body and Ship Hull. Ocean Engineering, 147, 107-120.   DOI
17 Oh, J.S., Lee, I.S., Yoon, H.K., Sung, H.K., 2017. Thermal and Structural Analyses of Semi-metallic Gasket Joined with Graphite Seal for Ship Engine Piping Flange. Journal of Ocean engineering and Technlogy, 31(5), 352-356.   DOI
18 Promat, 2018. Thermal Characteristics. [Online] Available at : [Accessed 04 April. 2018].