Year 2019,
Issue: 16, 3 - 16, 01.10.2019
Salim Tamer
,
Barış Barlas
Yalçın Ünsan
References
- Dessi, D., Mariani, R., La Gala, F. and Benedetti, L., (2003). Experimental analysis of the wave induced response of a fast monohull via segmented-hull model. FAST 2003 conference, Ischia, Italy, 7-10 October 2003, pp.75-82.
- Dessi, D. and Mariani, R., (2006). Slamming load analysis of a fast vessel in regular waves: a combined numerical/ experimental approach. 26th Symp on Naval Hydrodynamics, Rome, 17-22 September 2006.
- Drummen, I. (2008). Experimental and numerical investigation of nonlinear wave-induced load effects in container ships considering hydroelasticity. PhD dis., NTNU.
- Fonseca, N., & Guedes Soares, C. (2004a). Experimental investigation of the nonlinear effects on the statistics of vertical motions and loads of a container ship in irregular waves. Journal of Ship Research, 48(2), 148-167.
- Fonseca, N., & Guedes Soares, C. (2004b). Experimental investigation of the nonlinear effects on the vertical motions and loads of a container ship in regular waves. Journal of Ship Research, 48(2), 118-147.
- Hay, B., Bourne, J., Engle, A. and Rubel, R., (1994). Characteristics of hydrodynamic loads data for a naval combatant. Hydroelasticity in Marine Technology 1994, Trondheim, 22-28 May 1994, pp.169-188.
- Hong, S. Y. and Kim, B. W. (2014). Experimental investigations of higher-order springing and whipping-WILS project. International Journal of Naval Architecture and Ocean Engineering, 6(4), 1160-1181.
- Hong S. Y., Kim K. H. and Kim B. W. (2015). An experimental investigation on bow slamming loads on an ultra-large container ship 7th International Conference on Hydroelasticity In Marine Technology.
- Iijima, K., Hermundstad, O.A., Zhub, S. and Moan, T. (2009). Symmetric and antisymmetric vibrations of a hydroelastically scaled model. Hydroelasticity in Marine Technology 2009, Southampton, UK, 8-10 September 2009, pp.173-182.
- Jiao, J., Ren, H. and Adenya, C. A. (2015). Experimental and numerical analysis of hull girder vibrations and bow impact of a large ship sailing in waves. Shock and Vibration, 2015.
- Kapsenberg, G.K. and Brizzolara, S. (1999). Hydroelastic effects of bow flare slamming on a fast monohull. FAST-99, Seattle, 31 August - 2 September 1999.
- Kim B. W., Hong S. Y. and Kim K. H. (2015) Resonant and non-resonant whipping responses of a container model ship in regular and irregular waves. 7th International Conference on Hydroelasticity In Marine Technology.
- Kim K. H., Kim B. W. and Hong S. Y. (2015) Experimental study on correlation between slamming impact and whipping vibration for an ultra-large containership. 7th International Conference on Hydroelasticity In Marine Technology.
- Lavroff, J., Davis, M. R., Holloway, D. S. and Thomas, G. (2007). Experimental analysis of the wet flexural mode response of an NPL 6A hydroelastic segmented model. Australian Journal of Mechanical Engineering, 4(2), 197-207.
- Lewis, E.V. (1954). Ship model tests to determine bending moments in waves. Transpotation of the Society of Naval Architects and Marine Engineers (SNAME), 62, pp.426-490.
- Malenica, S., Molin, B., Remy, F. and Senjanovic, I. (2003). Hydroelastic response of a barge to impulsive and non-impulsive wave loads. Hydro-elasticity in Marine Technology 2003, Oxford, UK, 15-17 September 2003, pp. 107-115.
- McTaggart, K., Datta, I., Stirling, A., Gibson, S. and Glen, I. (1997). Motions and loads of a hydroelastic frigate model in severe seas. SNAME Annual meeting, Ottawa, 15-18 October 1997, pp.1-24. Sawada, H., Watanabe, I., Yamamoto, T., Tanizawa, K., Ishida, S., Ueno, M. and Miyamoto, T. (1987). On an elastic model to simulate elastic hull responses of ships, report. Japan: Ship Research Institute, Ministry of Transport.
ESNEK GEMİ MODELLERİ İLE GEMİ DAVRANIŞLARININ DENEYSEL ÇALIŞMALARINA YÖNELİK BİR İNCELEME
Year 2019,
Issue: 16, 3 - 16, 01.10.2019
Salim Tamer
,
Barış Barlas
Yalçın Ünsan
Abstract
Ülkeler arası ticaret, büyük oranda deniz yolu ile limanlar arasında yapılmaktadır. Talep edilen ürünlerin ticari faaliyetlerle sağlanabilmesi için farklı tipte ve büyüklükte gemilere ihtiyaç duyulur. Büyük tonajdaki gemilerin ve yüksek hızlı teknelerin akışkan ortamı olan okyanus ve okyanus dalgaları ile etkileşimi özellikli bir araştırma alanıdır. Akışkan ile yüksek etkileşime sahip bu tip gemilerin okyanus dalgalarında seyir halinde yapısal güvenliği için global davranışlarının incelenmesi önem arz etmektedir. Bu çalışmada, büyük gemiler ve ek olarak yüksek hızlı teknelerin okyanus dalgaları içindeki yapısal davranışını deneysel yöntemlerle inceleyen çalışmalar gözden geçirilmiştir. Ayrıca bu çalışma, ülkemizde gemi modellerinin deneysel hidroelastik analizi yapılmamış olmasından dolayı, yapılabilecek potansiyel çalışmalara rehberlik edecektir
References
- Dessi, D., Mariani, R., La Gala, F. and Benedetti, L., (2003). Experimental analysis of the wave induced response of a fast monohull via segmented-hull model. FAST 2003 conference, Ischia, Italy, 7-10 October 2003, pp.75-82.
- Dessi, D. and Mariani, R., (2006). Slamming load analysis of a fast vessel in regular waves: a combined numerical/ experimental approach. 26th Symp on Naval Hydrodynamics, Rome, 17-22 September 2006.
- Drummen, I. (2008). Experimental and numerical investigation of nonlinear wave-induced load effects in container ships considering hydroelasticity. PhD dis., NTNU.
- Fonseca, N., & Guedes Soares, C. (2004a). Experimental investigation of the nonlinear effects on the statistics of vertical motions and loads of a container ship in irregular waves. Journal of Ship Research, 48(2), 148-167.
- Fonseca, N., & Guedes Soares, C. (2004b). Experimental investigation of the nonlinear effects on the vertical motions and loads of a container ship in regular waves. Journal of Ship Research, 48(2), 118-147.
- Hay, B., Bourne, J., Engle, A. and Rubel, R., (1994). Characteristics of hydrodynamic loads data for a naval combatant. Hydroelasticity in Marine Technology 1994, Trondheim, 22-28 May 1994, pp.169-188.
- Hong, S. Y. and Kim, B. W. (2014). Experimental investigations of higher-order springing and whipping-WILS project. International Journal of Naval Architecture and Ocean Engineering, 6(4), 1160-1181.
- Hong S. Y., Kim K. H. and Kim B. W. (2015). An experimental investigation on bow slamming loads on an ultra-large container ship 7th International Conference on Hydroelasticity In Marine Technology.
- Iijima, K., Hermundstad, O.A., Zhub, S. and Moan, T. (2009). Symmetric and antisymmetric vibrations of a hydroelastically scaled model. Hydroelasticity in Marine Technology 2009, Southampton, UK, 8-10 September 2009, pp.173-182.
- Jiao, J., Ren, H. and Adenya, C. A. (2015). Experimental and numerical analysis of hull girder vibrations and bow impact of a large ship sailing in waves. Shock and Vibration, 2015.
- Kapsenberg, G.K. and Brizzolara, S. (1999). Hydroelastic effects of bow flare slamming on a fast monohull. FAST-99, Seattle, 31 August - 2 September 1999.
- Kim B. W., Hong S. Y. and Kim K. H. (2015) Resonant and non-resonant whipping responses of a container model ship in regular and irregular waves. 7th International Conference on Hydroelasticity In Marine Technology.
- Kim K. H., Kim B. W. and Hong S. Y. (2015) Experimental study on correlation between slamming impact and whipping vibration for an ultra-large containership. 7th International Conference on Hydroelasticity In Marine Technology.
- Lavroff, J., Davis, M. R., Holloway, D. S. and Thomas, G. (2007). Experimental analysis of the wet flexural mode response of an NPL 6A hydroelastic segmented model. Australian Journal of Mechanical Engineering, 4(2), 197-207.
- Lewis, E.V. (1954). Ship model tests to determine bending moments in waves. Transpotation of the Society of Naval Architects and Marine Engineers (SNAME), 62, pp.426-490.
- Malenica, S., Molin, B., Remy, F. and Senjanovic, I. (2003). Hydroelastic response of a barge to impulsive and non-impulsive wave loads. Hydro-elasticity in Marine Technology 2003, Oxford, UK, 15-17 September 2003, pp. 107-115.
- McTaggart, K., Datta, I., Stirling, A., Gibson, S. and Glen, I. (1997). Motions and loads of a hydroelastic frigate model in severe seas. SNAME Annual meeting, Ottawa, 15-18 October 1997, pp.1-24. Sawada, H., Watanabe, I., Yamamoto, T., Tanizawa, K., Ishida, S., Ueno, M. and Miyamoto, T. (1987). On an elastic model to simulate elastic hull responses of ships, report. Japan: Ship Research Institute, Ministry of Transport.