Simcenter STAR-CCM+를 이용한 선수 규칙파 중 부가저항 수치해석

  • 김철호 (지멘스 인더스트리 소프트웨어) ;
  • 최민수 (지멘스 인더스트리 소프트웨어) ;
  • 이인수 (지멘스 인더스트리 소프트웨어) ;
  • 진봉용 (지멘스 인더스트리 소프트웨어)
  • Published : 2018.03.30

Abstract

Keywords

References

  1. Choi, J. & Sung, B.Y., 2009. Numerical simulations using momentum source wave-maker applied to RANS equation model, Coastal Engineering, 56(10), pp.1043-1060. https://doi.org/10.1016/j.coastaleng.2009.06.009
  2. Faltinsen, O.M. Minsaas, K.J. Liapis, N. & Skjordal, S.O., 1980. Prediction of resistance and propulsion of a ship in a seaway. Proceeding of 13th Symposium on Naval Hydrodynamics, Tokyo, Japan, 6-10 October 1980, pp.505-529.
  3. Faltinsen, O.M., 2005. Hydrodynamics of High-Speed Marine Vehicles. Cambridge: New York.
  4. Fujii, H. & Takahashi, T., 1975. Experimental study on the resistance increase of a ship in regular oblique waves. Proceeding of the 14th ITTC, Ottawa, September 1975, pp. 351-360.
  5. Gerritsma, J. & Beukelman, W., 1972. Analysis of the resistance increase in waves of a fast cargo ship. International Shipbuilding Progress, 19(217), pp.285-293. https://doi.org/10.3233/ISP-1972-1921701
  6. Hu, C. & Kashiwagi, M., 2007. Numerical and experimental syudies on three-dimensional water on deck with a modified Wigley model. 9th International Conference on Numerical Ship Hydrodynamics, Ann Arbor, Michigan, 5-8 August 2007.
  7. Jeong, K.L. & Lee, Y.G., 2014. Numerical simulation of the flow around advancing ships in regular waves using a fixed rectilinear grid system. Journal of Korean Society of Ocean Engineering, 51(5), pp.419-428.
  8. Jeong, Y.W. Kim, Y. & Park, D.M., 2017. Study on ship performance in a seaway for application to early stage of hull-form design. Journal of the Society of Naval Architects of Korea, 54(3), pp.171-186. https://doi.org/10.3744/SNAK.2017.54.3.171
  9. Journee, J.M.J., 1992. Experiments and calculations on 4 wigley hull forms in head waves. Delft University of Technology Report No 0909. Delft: Delft University.
  10. Kim, J.W., O'Sullivan, J., & Read, A., 2012. Ringing analysis on a vertical cylinder by euler overlay method, OMAE2012-84091.
  11. Kim, Y.J. & Lee, S.B., 2017. Effects of trim conditions on ship resistance of KCS in short waves. Journal of the Society of Naval Architects of Korea, 54(3), pp.258-266. https://doi.org/10.3744/SNAK.2017.54.3.258
  12. Kuroda, M. Tsujimoto, M. Sasaki, N. Ohmatsu, S. & Takagi, K., 2011. Study on the bow shapes above the waterline in view of the powering and greenhouse gas emission in actual seas. Journal of Engineering for the Maritime Environment, 226(1), pp.23-35.
  13. Lee, H.Y. & Kwak, Y.K., 1997. Analysis of added resistance of a ship advancing in waves. Journal of Korean Society of Ocean Engineering, 11(2), pp.91-99.
  14. Maruo, H., 1960. Wave resistance of a ship in regular head seas. Bulletin of the Faculty of Engineering, Yokohama National University, 9, pp.73-91.
  15. Nakamura, S. & Naito, S., 1977. Propulsive performance of a containership in waves. Journal of the Society of Naval Architects of Japan, 15, pp. 24-48.
  16. National Maritime Research Institute, 2015. Tokyo 2015 A workshop on CFD in ship hydrodynamics. [Online] (Updated 1 August 2016) Available at: http://www.t2015.nmri.go.jp [Accessed 18 October 2016].
  17. Oh, S. Yang, J. & Park, S.H., 2015. Computational and experimental studies on added resistance of AFRAMAX-Class tankers in head seas. Journal of the Society of Naval Architects of Korea, 52(6), pp.471-477. https://doi.org/10.3744/SNAK.2015.52.6.471
  18. Oh, S. & Yang, J., 2016. A study on estimation of added resistance in waves using modified radiated energy method and short wave correction method. Journal of the Society of Naval Architects of Korea, 53(1), pp.62-68. https://doi.org/10.3744/SNAK.2016.53.1.62
  19. Orihara, H. & Miyata, H., 2003. Evaluation of added resistance in regular incident waves by computational fluid dynamics motion simulation using an overlapping grid system. Journal of Marine Science and Technology, 8(2), pp.47-60. https://doi.org/10.1007/s00773-003-0163-5
  20. Patankar, S.V. & Spalding, D.B., 1972. A calculation procedure for heat, mass and momentum transfer in three-dimensional parabolic flows. International Journal of Heat and Mass Transfer, 15, pp.1787-1806. https://doi.org/10.1016/0017-9310(72)90054-3
  21. Park, D.M. Lee, J. & Kim, Y., 2015. Uncertainty analysis for added resistance experiment of KVLCC2 ship. Ocean Engineering, 95, pp.143-156. https://doi.org/10.1016/j.oceaneng.2014.12.007
  22. Park, I.R. Kim, J. Kim, Y.C. Kim, K.S. Van, S.H. & Suh, S.B., 2013. Numerical prediction of ship motions in wave using RANS method. Journal of the Society of Naval Architects of Korea, 50(4), pp.232-239. https://doi.org/10.3744/SNAK.2013.50.4.232
  23. Radoslav, N. & JasnaPrpi, O., 2007. A comparison of different methods for added resistance prediction. 22nd IWWWFB, Zagreb, Croatia, 15 April 2007, pp.149-152.
  24. Seo, M.G. Kim, K.H. Park, D.M. & Kim, Y., 2013. Comparative study on added resistance for different hull forms by using weakly-nonlinear seakeeping formulations. Journal of the Society of Naval Architects of Korea, 50(1), pp.49-58. https://doi.org/10.3744/SNAK.2013.50.1.49
  25. Seo, S. & Park, S.S., 2017. Numerical simulations of added resistance and motions of KCS in regular head waves. Journal of the Society of Naval Architects of Korea, 54(2), pp.132-142. https://doi.org/10.3744/SNAK.2017.54.2.132
  26. STAR-CCM+ Documentation Version 11.06, 2016. 2016 Siemens PLM Software.
  27. Storm-Tejsen, J. Yeh, H.Y.H & Moran, D.D., 1973. Added resistance in waves. Society of Naval Architects and Marine Engineers Transactions, 81, pp. 250-279.
  28. Visonneau, M. et al., 2010. Ship motions in moderate and steep waves with an interface capturing method. 9th International Conference on Hydrodynamics, Shanghai, China, 11-15 October 2010.
  29. Weiss, J.M. Maruszewski, J.P. & Smith, W.A., 1999. Implicit solution of preconditioned navier-stokes equations using algebraic multigrid. AIAA Journal, 37(1), pp.29-36. https://doi.org/10.2514/2.689
  30. Yang, K.K. Lee, J.H. Nam, B.W. & Kim, Y., 2013. Analysis of added resistance using a cartesian-rrid-based computational method. Journal of the Society of Naval Architects of Korea, 50(2), pp.79-87. https://doi.org/10.3744/SNAK.2013.50.2.79