Analysis of trimaran-pentamaran side hull location based on clearance and staggers with stern form variations

Yanuar; Wiwin Sulistyawati; R. Joshua Yones; Samodero Mahardika

doi:10.1051/e3sconf/20186704003

All issues

Volume 67 (2018)

E3S Web Conf., 67 (2018) 04003

References

Open Access

Issue		E3S Web Conf. Volume 67, 2018 The 3^rd International Tropical Renewable Energy Conference “Sustainable Development of Tropical Renewable Energy” (i-TREC 2018)


Article Number		04003
Number of page(s)		6
Section		Eco Tropical Built Environment
DOI		https://doi.org/10.1051/e3sconf/20186704003
Published online		26 November 2018

Oller, Erik, Vasilios Nikou, & Konstantinos Psallidas. Focused Mission High Speed Combatant. DTIC Document (2003) [Google Scholar]
Ikeda, Yoshiho, Emiko Nakabayashi, and Ai Ito. Concept design of a pentamaran type fast RoRo by PITTA Grant 2018 funded by DRPM Universitas Indonesia with no. 5000/UN2.R3.1/HKP.05.00/2018Eng. 1:35–42 (2005) [Google Scholar]
Doctors, L.J. and Scrace, R.J. The Optimisation of Trimaran Sidehull Position for Minimum Resistance. FAST'03, Ischia, Italy (2003) [Google Scholar]
Molland, A., Wilson, P., Taunton, D., Chandraprabha, S., Ghani, P. Resistance and wash measurements on a series of high speed displacement monohull and catamaran forms in shallow water. Int. J. of Mar.Eng. 146, 19–38 (2004) [Google Scholar]
Broglia, R., Zaghi, S., Di Mascio, A. Numerical simulation of interference effects for a high-speed catamaran. J. Mar. Sci. Technol. 16, 254–269 (2011) [CrossRef] [Google Scholar]
Peng, Hongxuan. Numerical computation of multi-hull ship resistance and motion, Dalhousie University Halifax (2001) [Google Scholar]
Yanuar, Gunawan, M A Talahatu, Ragil T Indrawati, and A Jamaluddin. Resistance analysis of unsymmetrical trimaran model with outboard sidehulls configuration, J. of Marine Science and Appl. 12, Issue 3, 293–297 (2013) [CrossRef] [Google Scholar]
Yanuar, Gunawan, Kurniawan T. Waskito, and A. Jamaluddin. Experimental Study Resistances of Asymmetrical PentamaranModel with Separation and Staggered Hull Variation of InnerSide-hulls, Int. J. of Fluid Mech. Research (2015). [Google Scholar]
Yanuar, Gunawan A. Muhyi A. Jamaluddin. Ship resistance of quadramaran with various hull position configurations. J. of Marine Science and Appl. 15. Issue 1. 28–32 (2016) [CrossRef] [Google Scholar]
Yanuar, Ibadurrahman, Kurniawan T. Waskito, S. Karim and M. Ichsan. Interference resistance of pentamaran ship model with asymmetric outrigger configurations, J. of Marine Sci. and Appl. 16. Issue 1. 42–47 (2017) [CrossRef] [Google Scholar]
Yanuar, Ibadurrahman, M.H Faiz and M.H. Adib. Experimental Analysis of Diamond Pentamaran Model with Symmetric and Asymmetric Hull Combinations, J. of Eng. and Applied Sci. 12 (13): 3434–3440 (2017) [Google Scholar]
Tuck, EO, DC Scullen, and L Lazauskas. Sea wave pattern evaluation: Citeseer (2002). [Google Scholar]
Molland, A.F., Wellicome, J.F., Couser, P.R. Resistance experiments on a systematic series of high speed displacement catamaran forms: variation of length-displacement ratio and breadth-draught ratio. R. Inst. Nav. Archit. 138, 55–71 (1996) [Google Scholar]
Begovic E., Bove A., Bruzzone D., Caldarella S., Cassella P., Ferrando M., Tincani E., Zotti I. Co-Operative Investigation into Resistance of Different Trimaran Hull Forms and Configurations, the 8th Int. Conf. On Fast Marine Transportation, St. Petersburg (2005). [Google Scholar]
Yeung, R.W., Wan, H. Multi-hull configuration design: a framework for powering minimization. In: Proceedings of the ASME 2007 26th International Conference on Offshore Mechanics and Arctic Engineering (OMAE2007). 4. 833–842 (2007) [CrossRef] [Google Scholar]
Kim, Y.H., Jenkins, D. Trim and Sinkage Effects on Wave Resistance with Series 60; cb=0.60. Technical report. David W. Taylor Naval Ship Research and Development Center, Bethesda, Maryland (1981) [Google Scholar]

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[1] Oller, Erik, Vasilios Nikou, & Konstantinos Psallidas. Focused Mission High Speed Combatant. DTIC Document (2003) [Google Scholar]

[2] Ikeda, Yoshiho, Emiko Nakabayashi, and Ai Ito. Concept design of a pentamaran type fast RoRo by PITTA Grant 2018 funded by DRPM Universitas Indonesia with no. 5000/UN2.R3.1/HKP.05.00/2018Eng. 1:35–42 (2005) [Google Scholar]

[3] Doctors, L.J. and Scrace, R.J. The Optimisation of Trimaran Sidehull Position for Minimum Resistance. FAST'03, Ischia, Italy (2003) [Google Scholar]

[4] Molland, A., Wilson, P., Taunton, D., Chandraprabha, S., Ghani, P. Resistance and wash measurements on a series of high speed displacement monohull and catamaran forms in shallow water. Int. J. of Mar.Eng. 146, 19–38 (2004) [Google Scholar]

[5] Broglia, R., Zaghi, S., Di Mascio, A. Numerical simulation of interference effects for a high-speed catamaran. J. Mar. Sci. Technol. 16, 254–269 (2011) [CrossRef] [Google Scholar]

[6] Peng, Hongxuan. Numerical computation of multi-hull ship resistance and motion, Dalhousie University Halifax (2001) [Google Scholar]

[7] Yanuar, Gunawan, M A Talahatu, Ragil T Indrawati, and A Jamaluddin. Resistance analysis of unsymmetrical trimaran model with outboard sidehulls configuration, J. of Marine Science and Appl. 12, Issue 3, 293–297 (2013) [CrossRef] [Google Scholar]

[8] Yanuar, Gunawan, Kurniawan T. Waskito, and A. Jamaluddin. Experimental Study Resistances of Asymmetrical PentamaranModel with Separation and Staggered Hull Variation of InnerSide-hulls, Int. J. of Fluid Mech. Research (2015). [Google Scholar]

[9] Yanuar, Gunawan A. Muhyi A. Jamaluddin. Ship resistance of quadramaran with various hull position configurations. J. of Marine Science and Appl. 15. Issue 1. 28–32 (2016) [CrossRef] [Google Scholar]

[10] Yanuar, Ibadurrahman, Kurniawan T. Waskito, S. Karim and M. Ichsan. Interference resistance of pentamaran ship model with asymmetric outrigger configurations, J. of Marine Sci. and Appl. 16. Issue 1. 42–47 (2017) [CrossRef] [Google Scholar]

[11] Yanuar, Ibadurrahman, M.H Faiz and M.H. Adib. Experimental Analysis of Diamond Pentamaran Model with Symmetric and Asymmetric Hull Combinations, J. of Eng. and Applied Sci. 12 (13): 3434–3440 (2017) [Google Scholar]

[12] Tuck, EO, DC Scullen, and L Lazauskas. Sea wave pattern evaluation: Citeseer (2002). [Google Scholar]

[13] Molland, A.F., Wellicome, J.F., Couser, P.R. Resistance experiments on a systematic series of high speed displacement catamaran forms: variation of length-displacement ratio and breadth-draught ratio. R. Inst. Nav. Archit. 138, 55–71 (1996) [Google Scholar]

[14] Begovic E., Bove A., Bruzzone D., Caldarella S., Cassella P., Ferrando M., Tincani E., Zotti I. Co-Operative Investigation into Resistance of Different Trimaran Hull Forms and Configurations, the 8th Int. Conf. On Fast Marine Transportation, St. Petersburg (2005). [Google Scholar]

[15] Yeung, R.W., Wan, H. Multi-hull configuration design: a framework for powering minimization. In: Proceedings of the ASME 2007 26th International Conference on Offshore Mechanics and Arctic Engineering (OMAE2007). 4. 833–842 (2007) [CrossRef] [Google Scholar]

[16] Kim, Y.H., Jenkins, D. Trim and Sinkage Effects on Wave Resistance with Series 60; cb=0.60. Technical report. David W. Taylor Naval Ship Research and Development Center, Bethesda, Maryland (1981) [Google Scholar]