References
- API, 1998. Design of Risers for Floating Production Systems (FPSs) and Tension-leg Platforms (TLPs) (API Recommended Practice 2RD). American Petroleum Institute, Washington, USA.
- Dingwall, J.R., 1997. The Design of a Deep Water Catenary Riser. Thesis of the degree of doctor philosophy in University of Glasgow.
- Fernandes, A.C., Jacob, B.P., Silva, R.M., Carvalho, R.A., Lemos, C.A., 1999. Design of flexible jumpers for deepwater hybrid riser configurations. In: Proceedings of OMAE99, 18th International Conference on Offshore Mechanics and Arctic Enginezzering. St. Johns, Newfoundland, Canada.
- Kang, Z., Jia, L., Sun, L., Liang, W., 2012. Design and analysis of typical buoyancy tank riser tensioner systems. J. Mar. Sci. Appl. 11 (No. 3), 351-360. https://doi.org/10.1007/s11804-012-1143-0
- Kebadze, E., 2000. Theoretical Modelling of Unbonded Flexible Pipe Cross-sections. Doctoral dissertation. South Bank University.
- McGrail, J., Lim, F., 2004. SLOR vs. SCR for deepwater applications technical appraisal. In: The Fourteenth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
- Qin, W., Kang, Z., Kang, Y., 2011. Free standing hybrid riser global parametric sensitivity analysis and optimum design. In: ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering, pp. 569-575.
- Roveri, F.E., Velten Filho, A.G., Mello, V.C., Marques, L.F., 2008. The Roncador P52 oil export system-hybrid riser at a 1800m water depth. In: Offshore Technology Conference. Offshore Technology Conference.
- Song, R., Stanton, P., Zhou, X., 2010. Engineering design of deepwater free standing hybrid riser. In: ASME 2010 29th International Conference on Ocean, Offshore and Arctic Engineering, pp. 637-649.
- Song, R., Streit, P., 2011. Design of the World's deepest hybrid riser system for the cascade & chinook development. In: Offshore Technology Conference. Offshore Technology Conference.
- Sousa, J.R.M., Viero, P.F., Magluta, C., Roitman, N., 2012. An experimental and nu- merical study on the axial compression response of flexible pipes. J. Offshore Mech. Artic Eng. 134 (No. 031703).
- Tan, Z., Quiggin, P., Sheldrake, T., 2009. Time domain simulation of the 3D bending hysteresis behavior of an unbonded flexible riser. J. Offshore Mech. Arct. Eng. 131 (No. 031301).
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