A Study on the Stern Bearing Damage and Shaft Alignment for 37K DWT Product/Chemical Tanker
![]() |
Park, Geumsung
(Marine Service Department, Hyundai Global Service)
Koh, Changik (Movena Korea) Chung, Jaewook (Marine Service Department, Hyundai Global Service) Nam, Gunsik (Smart Service Division, PANASIA) Chae, Junsik (Smart Service Division, PANASIA) |
1 | American Bureau of Shipping (ABS), 2017. Rules for Building and Classing Steel Vessel. ABS: Houston |
2 | American Bureau of Shipping (ABS), 2019. Guidance Notes on Propulsion Shafting Alignment. ABS: Houston |
3 | Cho, D.S. et al, 2016. Propulsion shafting alignment analysis considering the interaction between shaft deflection and oil film pressure of sterntube journal bearing. Journal of the Society of Naval Architects of Korea, 53(6), pp.447-455. DOI |
4 | Choung, J.M. & Choe, I.H., 2006. Development of elastic shaft alignment design program. Journal of the Society of Naval Architects of Korea, 43(4), pp.512-520. DOI |
5 | Choung, J.M. & Choe, I.H., 2007. Pressure analysis of sterntube after bush bearing considering elastic deflection of misaligned journal and partial slope of bearing bush. Journal of the Society of Naval Architects of Korea, 44(6), pp.666-674. DOI |
6 | Det Norske Veritas-Germanischer Lloyd (DNV-GL), 2019. Technical and regulatory news. Environmentally acceptable lubricants show reduced capabilities under certain conditions. DNV-GL. |
7 | Lee, J.U., Jeong, B.G. & An, T.H., 2019. Investigation on effective support point of single stern tube bearing for marine propulsion shaft alignment. Marine Structures 64, pp.1-17. DOI |
8 | MAN Diesel & Turbo(MDT), 2012. Bearing load measurement by jacking up, Rev. 8. |
9 | Nippon Kaiji Kyokai(NK), 2006. Guidelines on shafting alignment. NK: Tokyo. |
10 | Shin, S.H. & Choe, I.H., 2004. Pressure distribution analysis for after bush bearing of ship propulsion shaft. Journal of the Society of Naval Architects of Korea, 41(3), pp.35-40. DOI |
11 | Sun, J.S., Lee, Y.J. & Kim, U.K., 2009. The flexibility estimation of alignment for propulsion shaft system using the approximated hull deflection curve. Journal of the Society of Marine Engineering, 33(1), pp.28-36. |
12 | Shin, S.H., 2015. Effects of propeller forces on the propeller shaft bearing during going straight and turning of ship. Journal of the Society of Naval Architects of Korea, 52(1), pp.61-69. DOI |
13 | Shin, S.H. & Ko, D.E., 2017. A study on flexibility acquisition method for VLCC shaft system. Journal of the Korea Academia-Industrial, 18(12) pp.135-139. |
14 | Vartdal, B.J., Gjestland. T. & Arvidsen, T.I., 2009. Lateral propeller forces and their effects on shaft bearings. First International Symposium on Marine Propulsion, Trondheim, 22-24 June 2009, pp.475-481. |
![]() |