참고문헌
- Amini, H., Steen, S., 2011. Experimental and theoretical analysis of propeller shaft loads in oblique inflow. J. Ship Res. 55 (4), 1-21. https://doi.org/10.5957/jsr.2011.55.1.1
- Amini, H., Steen, S., 2012. Theoretical and experimental investigation of propeller shaft loads in transient conditions. Int. Shipbuild. Prog. 59 (1), 55-82.
- Coraddu, A., Dubbioso, G., Mauro, S., Viviani, M., 2013. Analysis of twin screw ships' asymmetric propeller behaviour by means of free running model tests. Ocean Eng. 68 (4), 47-64. https://doi.org/10.1016/j.oceaneng.2013.04.013
- Dubbioso, G., Muscari, R., Mascio, A.D., 2013. Anasazis of the performance of a marine propeller operating in oblique flow. Comput. Fluids 75, 86-102. https://doi.org/10.1016/j.compfluid.2013.01.017
- Dubbioso, G., Muscari, R., Mascio, A.D., 2014. Analysis of a marine propeller operating in oblique flow. Part 2: very high incidence angles. Comput. Fluids 92 (9), 56-81. https://doi.org/10.1016/j.compfluid.2013.11.032
- Dubbioso, G., Muscari, R., Ortolani, F., Mascio, A.D., 2017. Analysis of propeller bearing loads by CFD. Part 1: straight ahead and steady turning maneuvers. Ocean Eng. 130, 241-259. https://doi.org/10.1016/j.oceaneng.2016.12.004
- Hou, L.X., Wang, C.H., Hu, A.K., Han, F.L., 2015. Wake-adapted design of fixed guide vane type energy saving device for marine propeller. Ocean Eng. 110, 11-17. https://doi.org/10.1016/j.oceaneng.2015.09.036
- Hsin, C.Y., 1990. Development and Analysis of Panel Methods for Propellers in Unsteady Flow. Ph.D. thesis. MIT, Massachusetts.
- Jessup, S.D., 1989. An Experimental Investigation of Viscous Aspects of Propeller Blade Flow. Ph.D. thsis. Catholic University of America.
- Kang, D., Nagarajan, V., Hasegawa, K., Sano, M., 2008. Mathematical model of single-propeller twin-rudder ship. J. Mar. Sci. Technol. 13 (3), 207-222. https://doi.org/10.1007/s00773-008-0027-0
- Khanfir, S., Nagarajan, V., Shouji, K., Lee, S.K., 2011. Manoeuvring characteristics of twin-rudder systems: rudder-hull interaction effect on the manoeuvrability of twin-rudder ships. J. Mar. Sci. Technol. 16 (4), 472-490. https://doi.org/10.1007/s00773-011-0140-3
- Krasilnikov, V., Zhang, Z.R., Hong, F.W., 2009. Analysis of unsteady propeller blade forces by RANS. In: Proceeding of the First International Sysmposium on Marine Propulsors. Trondheim, Norway, pp. 22-24.
- Lee, H., Kinnas, S.A., 2005. Unsteady wake alignment for propellers in nonaxisymmetric flows. J. Ship Res. 49 (3), 176-190. https://doi.org/10.5957/jsr.2005.49.3.176
- Ortolani, F., Mauro, S., Dubbioso, G., 2015a. Investigation of the radial bearing force developed during actual ship operations. Part 1: straight ahead sailing and turning maneuvers. Ocean Eng. 94, 67-87. https://doi.org/10.1016/j.oceaneng.2014.11.032
- Ortolani, F., Mauro, S., Dubbioso, G., 2015b. Investigation of the radial bearing force developed during actual ship operations. Part 2: unsteady maneuvers. Ocean Eng. 106, 424-445. https://doi.org/10.1016/j.oceaneng.2015.06.058
- Politis, G.K., 2004. Simulation of unsteady motion of a propeller in a fluid including free wake modeling. Eng. Anal. Bound. Elem. 28 (6), 633-653. https://doi.org/10.1016/j.enganabound.2003.10.004
- Shamsi, R., Ghassemi, H., 2013. Numerical investigation of yaw angle effects on propulsive characteristics of podded propulsors. Int. J. Nav. Archit. Ocean Eng. 5 (2), 287-301. https://doi.org/10.2478/IJNAOE-2013-0133
- Shamsi, R., Ghassemi, H., 2016. Determining the hydrodynamic loads of the marine propeller forces in oblique flow and off-design condition. Iran. J. Sci. Technol. Trans. Mech. Eng. 11, 1-7.
- Stettler, J.W., 2004. Steady and Unsteady Dynamics of an Azimuthing Podded Propulsor Related to Vehicle Maneuvering. Ph.D. thesis. MIT, Massachusetts.
- Viviani, M., Bonvino, C.P., Mauro, S., Cerruti, M., Guadalupi, D., Menna, A., 2007. Analysis of asymmetrical shaft power increase during tight manoeuvres. In: FAST 2007-9th International Conference on Fast Sea Transportation.
- Xiong, Y., Sheng, L., Yang, Y., 2013. Hydrodynamics performance of podded propulsion at declination angles. J. Shanghai Jiao Tong Univ. (Sci.) 47 (6), 956-961 (in Chinese).
- Yao, J.X., 2015. Investigation on hydrodynamic performance of a marine propeller in oblique flow by RANS computations. Int. J. Nav. Archit. Ocean Eng. 7 (1), 56-69. https://doi.org/10.1515/ijnaoe-2015-0005