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NTIS 바로가기海洋環境安全學會誌 = Journal of the Korean society of marine environment & safety, v.22 no.5, 2016년, pp.564 - 575
The present study provides numerical simulations to predict the added resistance and ship motion of the KVLCC2 in regular waves using the unsteady Reynolds-Averaged Navier-Stokes (URANS) and 3-D potential methods. This numerical analysis is focused on added resistance and vertical ship motions (heav...
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Arribas, F. P.(2007), Some methods to obtain the added resistance of a ship advancing waves, Ocean Eng., 34, pp. 946-955.
Bockmann, A., C. Pakozdi, T. Kristiansen, H. Jang and J. Kim(2014), An experimental and computational development of a benchmark solution for the validation of numerical wave tank, Proceedings of the ASME 2014, OMAE2014 -24710, pp. 1-14.
Deng, G. B., A. Leroyer, E. Guilmineau, P. Queutey, M. Visonneau and J. Wackers(2010), Verification and validation for unsteady computation. Gothenburg 2010: A workshop on CFD in ship hydrodynamics, pp. 237-259.
Faltinsen, O. M., K. J. Minsaas, N. Liapis and S. O. Skjordal(1980), Prediction of resistance and propulsion and propulsion of a ship in a seaway, Proceeding of 13th Sym. Naval Hydrodynamics, Tokyo, pp. 505-529.
Gerritsma, J. and W. Beukelman(1972), Analysis of the resistance increase in waves in a fast cargo ship, Intern. Shipbuilding Progr. 19(217), pp. 285-93.
Havelock, T. H.(1937), The resistance of a ship among waves, Proc. Roy. Soc. London A, 161, pp. 299-308.
IMO(2012), International Maritime Organisation, Interim guidelines for the calculation of the coefficient fw for decrease in ship speed in a representative sea condition for trial use, MEPC.1/Circ.796.
ITTC(2014), International Towing Tank Conference, The specialist committee on seakeeping-final report and recommendations to the 27th ITTC, Copenhagen.
Joncquez, S. A. G.(2009), Second-order forces and moments acting on ships in waves, Ph.D. thesis, Technical University of Denmark.
Joosen, W. P. A.(1966), Added resistance of ships in waves. Proc. 6th Symp. Naval Hydrodynamics, Wasington, D.C., pp. 23-34.
Kim, H. T., C. B. Hong, G. H. Lee and B. K. Kim(2015), Prediction of added resistance of a ship in waves using computational fluid dynamics. In: Proceedings of the Annual Spring Conference, SNAK, Korea, pp. 465-478.
Kim, H. T., J. J. Kim, N. Y. Choi and G. H. Lee(2014), A study on the operating trim, shallow water and wave effect. In: Proceedings of the Annual Autumn Conference, SNAK, Korea, pp. 631-637.
Kim, K. H., Y. Kim and Y. Kim(2007), WISH JIP project report and manual, Marine Hydrodynamic Laboratory, Seoul University.
Kim, K. H., M. G. Seo and Y. H. Kim(2012), Numerical analysis on added resistance of ships. International Journal of Offshore and Polar Engineering 22, pp. 21-29.
Kim, Y. C., K. S. Kim, J. Kim, Y. S. Kim, S. H. Van and Y. H. Jang(2015), Calculation of added resistance in waves for KVLCC2 and its modified hull form using RANS-based method. In: Proceedings of the Twenty-fifth International Ocean and Polar Engineering Conference, Hawaii, USA, pp. 924-930.
Kwon, Y. J.(2008), Speed loss due to added resistance in wind and waves, the Naval Architect 3, pp. 14-16.
Larssson L., F. Stern and M. Visonneau(2010), Experimental data from Osaka University. In: Proceedings of a workshop on numerical ship hydrodynamics, Gothenburg, Sweden, pp. 137-145.
Lee, J. H., M. G. Seo, D. M. Park, K. K. Yang, K. H. Kim and Y. Kim(2013), Study on the effects of hull form on added resistance. In: Proceeding of the 12th International Symposium on Practical Design of Ships and Other Floating Structures (PRADS2013), Changwon, Korea, pp. 329-337.
Liu, S., A. Papanikolaou and G. Zaraphonitis(2011), Prediction of added resistance of ships in waves, Ocean Engineering 38, pp. 641-650.
MARIN(2009), Maritime Research Institute Netherlands, PRECAL V6.5 Theory Manual, MARIN Report, 17926-2-CPS.
Maruo, H.(1960), The drift of a body floating on waves, Journal of Ship Research, 4(3), pp. 1-10.
Moctar, B., J. Kaufmann, J. Ley, J. Oberhagemann, V. Shigunov and T. Zorn(2010), Prediction of ship resistance and ship motions using RANSE, Gothenburg 2010: A workshop on CFD in ship hydrodynamics.
Newman, J. N.(1967), The drift force and moment on ships in waves. Journal of Ship Research, Vol. 11, pp. 51-60.
Prpic-Orsic, J. and O. M. Faltinsen(2012), Estimation of ship speed loss and associated CO2 emissions in a seaway, Ocean Engineering 44, pp. 1-10.
Sadat-Hosseini H., P. M. Carrica, H. Kim, Y. Toda and F. Stern(2010), URANS simulation and validation of added resistance and motions of the KVLCC2 crude carrier with fixed and free surgte conditions, Gothenburg 2010: A workshop on CFD in ship hydrodynamics.
Sadat-Hosseini H., P. Wu, P. M. Carrica, H. Kim, Y. Toda and F. Stern(2013), CFD verification and validation of added resistance and motions of KVLCC2 with fixed and free surge in short and long head waves, Ocean Eng. 48, pp. 240-273.
Salvesen, N., E. O. Tuck and O. M. Faltinsen(1970), Ship motions and sea loads. SNAME, Jersey City, pp. 1-30.
Shen, Z. and D. Wan(2012), RANS computations of added resistance and motions of ships in head waves, In: Proceedings of 22nd International Offshore and Polar Engineering Conference, Rhodes, Greece, pp. 1096-1103.
Shigunov, V. and A. Papanikolaou(2014), Criteria for minimum powering and maneuverability in adverse weather conditions, The 14th International Ship Stability Workship (ISSW), Kuala Lumbur, Malasia, pp. 174-184.
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