1 |
Ministry of Trade, Industry & Energy, 2013. A Technology of Arctic design and Winterization Performance Evaluation. Ministry of Trade, Industry & Energy: Sejong.
|
2 |
American Bureau of Shipping(ABS), 2006. Guide for Vessels Operating in Low Temperature Environments. ABS: Houston.
|
3 |
ANSYS Inc., 2010. ANSYS CFX-Solver Theory Guide RELEASE 13.0. ANSYS Inc.: Canonsburg.
|
4 |
Det Norske Veritas (DNV), 2005. DNV Rules for Classification of Ships. DNV: Oslo.
|
5 |
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 Society of Naval Architects of Korea, 49(6), pp.541-549.
DOI
|
6 |
Lloyd's Register, 2011. Rules for Ice and Cold Operating Winterization of Vessels. Lloyd's Register: London.
|
7 |
Jeong, S.Y. Lee, C.J. & Cho, S.R., 2011. A Study on Anti-Icing Technique for Ballast Water of Icebreaking Vessels Operating in Ice-Covered Water. Journal of the Society of Naval Architects of Korea, 48(1), pp.93-97.
DOI
|
8 |
Jeong, Y.J. Seo, Y.K. Lee, C.E. & Chae, A.Y., 2014. A study on the de-icing performance evaluation for ice-class louver. 2014 Symposium on Korean Association of Ocean Science and Technology Societies(KAOSTS), Busan, Republic of Korea, 22-23 May 2014.
|
9 |
Korea Research Institute of Ships & Ocean Engineering, 2012. The Cryogenic Performance Evaluation for The Excellent De-Icing Ice Class Louver. Korea Research Institute of Ships & Ocean Engineering: Daejeon.
|