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Wave-induced loads on cross-deck of a wave-piercing trimaran with different hull forms of outriggers

    Abolfath Askarian Khoob Affiliation
    ; Mohammad Javad Ketabdari Affiliation

Abstract

Trimaran has unique hull form with a rapidly growth in recent years due to its application as a mode of transports and naval vessels. Designing trimaran faces many technical challenges because of its complex structural outlines and high-speeds operation. This article investigates the influence of side hulls configuration (symmetric, inboard and outboard types) for wave loads on cross-deck of a trimaran ship when advancing at sea in regular waves. The computation of these hydrodynamic forces is carried out using MAESTRO-Wave 3D panel method code. This code is based on potential flow theory that uses Green’s function with the forward speed correction in the frequency domain. The results demonstrate that the outboard side hull form has the best performance on wave-induced load among three kinds of side hull forms. Furthermore, the results of this study offer more information for selecting the side hull form of the trimaran.

Keyword : trimaran ship, cross-deck, frequency domain computation, wave-induced loads, side hull, high-speed

How to Cite
Askarian Khoob, A., & Ketabdari, M. J. (2019). Wave-induced loads on cross-deck of a wave-piercing trimaran with different hull forms of outriggers. Transport, 34(5), 559-568. https://doi.org/10.3846/transport.2019.11376
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Nov 26, 2019
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References

ABS. 2014. Rules for Building and Classing: Steel Vessels 2014: Part 3 – Hull Construction and Equipment. American Bureau of Shipping (ABS), Houston, TX, US. 326 p. Available from Internet: https://ww2.eagle.org/content/dam/eagle/rules-and-guides/archives/conventional_ocean_service/2_svr2014/SVR_Part_3_e-July14.pdf

Ackers, B. B.; Michael, T. J.; Tredennick, O.; Landen, H. C.; et al. 1997. An investigation of the resistance characteristics of powered trimaran side-hull configurations, Transactions – Society of Naval Architects and Marine Engineers 105: 349–373.

Bashir, M. B.; Tao, L.; Atlar, M.; Dow, R. S. 2013. Experimental and numerical investigation of the wave-induced loads on a deep-V catamaran in regular waves, in Proceedings of the ASME 2013 32nd International Conference on Ocean, Offshore and Arctic Engineering. Volume 5: Ocean Engineering, 9–14 June 2013, Nantes, France. https://doi.org/10.1115/OMAE2013-10212

Brizzolara, S. 2003. Effect of hulls form variations on the hydro-dynamic performances in waves of a trimaran ship, in Proceedings of the 7th International Conference on Fast Sea Transportation, FAST 2003, 7–10 October 2003, Ischia, Italy, 1–8.

Dabssi, N.; Chagdali, M.; Hémon, A. 2008. Hydrodynamic coefficients and forces on multihulls in shallow water with constant or variable depth, Transport 23(3): 245–252. https://doi.org/10.3846/1648-4142.2008.23.245-252

Dobashi, J. 2014. Influence of side hull arrangement for wave loads acting on cross deck of trimaran, Journal of the Japan Society of Naval Architects and Ocean Engineers 20: 69–75. https://doi.org/10.2534/jjasnaoe.20.69 (in Japanese).

Dyachkov, V.; Makov, J. 2005. Seakeeping of a fast displacement catamaran, Transport 20(1): 14–22. https://doi.org/10.3846/16484142.2005.9637990

Fang, M.-C.; Chen, T.-Y. 2008. A parametric study of wave loads on trimaran ships traveling in waves, Ocean Engineering 35(8–9): 749–762. https://doi.org/10.1016/j.oceaneng.2008.02.001

Fang, M.-C.; Too, G.-Y. 2006. The effect of side hull arrangements on the motions of the trimaran ship in waves, Naval Engineers Journal 118(1): 27–37. https://doi.org/10.1111/j.1559-3584.2006.tb00405.x

Fuentes, D.; Salas, M.; Tampier, G.; Troncoso, C. 2015. Structural design and optimisation of an aluminium trimaran, in C. G. Soares, R. A. Shenoi (Eds.). Analysis and Design of Marine Structures V, 545–553.

Kim, Y. 2010. Comparative study on linear and nonlinear ship motion and loads, in Proceedings of the ITTC Workshop on Seakeeping, V&V for Non-Linear Seakeeping Analysis, International Towing Tank Conference, 19–21 October 2010, Seoul, Korea, 283–347.

Liu, W.; Li, X.; Wu, W.; Xu, S. 2011. Study on longitudinal ultimate strength analysis method for high speed trimaran, in The Twenty-First International Offshore and Polar Engineering Conference, 19–24 June 2011, Maui, Hawaii, US, 1–5.

Maestromarine. 2016. MAESTRO Version 10.0: Users’ Manual. Available from Internet: http://www.maestromarine.com Mohammadi, M.; Khedmati, M. R.; Vakilabadi, K. A. 2015. Effects of hull damage on global loads acting on a trimaran ship, Ships and Offshore Structures 10(6): 635–652. https://doi.org/10.1080/17445302.2014.943387

Ogawa, Y. 2008. Study on the prediction method of wave loads of a multi-hull ship taking account of the side hull arrangement, in HIPER’08: the 6th International Conference on High-Performance Marine Vehicles, 18–19 September 2008, Naples, Italy, 239–247.

Ren, H.; Zhen, C.; Li, C.; Feng, G. 2012. Study on structural form design of trimaran cross-deck, in Proceedings of the ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering. Volume 2: Structures, Safety and Reliability, 1–6 July 2012, Rio de Janeiro, Brazil, 631–636. https://doi.org/10.1115/OMAE2012-84025

Rhoads, J. L. 2004. Structural Loading of Cross Deck Connections for Trimaran Vessels. MSc Thesis, Massachusetts Institute of Technology, US. 176 p. Available from Internet: https://dspace.mit.edu/handle/1721.1/33165

Senan, A.; Krishnankutty, P. 2012. A study on non-linear wave forces and motion responses of a tri-hull carrier vessel, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment 226(1): 3–14. https://doi.org/10.1177/1475090211428106

Ungaro, A.; Pino, E.; Viviani, M.; Dattola, R. 2004. Global strength assessment of a trimaran hull multi-purpose frigate, in RINA International Conference Design & Operation of Trimaran Ships, 29–30 April 2004, 29–30 April 2004, London, UK.

Xu, M.; Zhang, S.-L. 2011. A numerical study on side hull optimization for trimaran, Journal of Hydrodynamics, Ser. B 23(2): 265–272. https://doi.org/10.1016/S1001-6058(10)60112-6

Zhao, C.; Ma, M.; Hughes, O. 2013. Applying strip theory based linear seakeeping loads to 3D full ship finite element models, in Proceedings of the ASME 2013: 32nd International Conference on Ocean, Offshore and Arctic Engineering. Volume 5: Ocean Engineering, 9–14 June 2013, Nantes, France. https://doi.org/10.1115/OMAE2013-10124