Hong, N., & Huh, TN. (2000). Dynamic Analysis of Riser with Vortex Excitation by Coupled Wake Oscillator Model. Journal of Korean Society of Coastal and Ocean Engineers, 12(3), 109-115.
Kim, BW., Sung, HG., Hong, SY., & Jung, HJ. (2010). Finite Element Nonlinear Analysis for Catenary Structure Considering Elastic Deformation.
Computer Modeling in Engineering and Sciences,
63(1), 29-45.
https://doi.org/10.3970/cmes.2010.063.029
Kim, BW., Sung, HG., Kim, JH., & Hong, SY. (2013). Comparison of Linear Spring and Nonlinear FEM Methods in Dynamic Coupled Analysis of Floating Structure and Mooring System.
Journal of Fluids and Structures,
42, 205-227.
https://doi.org/10.1016/j.jfluidstructs.2013.07.002
Kim, SJ. (2016). Fatigue Damage of Lazy-Wave SCR for Deepwater Offshore Platforms. Journal of the Institute of Industrial Technology(Daejeon University), 27(1), 27-34.
Li, SC. (2010). Dynamic Response of Deepwater Lazy-Wave Catenary Riser. Deep Offshore Technology International: Amsterdam Netherlands..
Oh, SH., Jung, JH., Park, BW., Kwon, YJ., & Jung, D. (2018). Numerical Study on the Estimation of Static Configuration of Steel Lazy Wave Riser Using Dynamic Relaxation Method.
Journal of Ocean Engineering and Technology,
32(6), 466-473.
https://doi.org/10.26748/KSOE.2018.32.6.466
Oh, SH., Jung, JH., Park, BW., Kwon, YJ., & Jung, D. (2019). Dynamic Simulation of Steel Lazy Wave Riser Excited at the Top-End. International Offshore and Polar Engineering Conference Honolulu USA: 1816-1823.
Park, BW., Jung, D., Jung, JH., & Kwon, YJ. (2017). Introduction on BOD (Basis of Design) for Concept Design of Steel Lazy Wave Riser. Proceedings of the Autum Conference the Korean Society of Ocean Engineers Geoje Korea.
Park, BW., Jung, D., Jung, JH., & Kwon, YJ. (2018). A Study on the Initial Configuration of SLWR (Steel Lazy Wave Riser) Considering the Effect of Internal Fluid Density and Buoyancy Arrangement. Proceedings of the Joint Conference of the Korean Association of Ocean Science and Technology Societies (KAOSTS) Jeju Korea..
Park, BW., Oh, SH., Kwon, YJ., Jung, JH., & Jung, D. (2019). Dynamic Analysis of SLWR Subjected to Internal Slug Flow Conditions. International Offshore and Polar Engineering Conference Honolulu USA: 1861-1867.
Ruan, W., Liu, S., Li, Y., Bai, Y., & Yuan, S. (2016). Nonlinear Dynamic Analysis of Deepwater Steel Lazy Wave Riser Subjected to Imposed Top-End Excitations. Proceedings of 35th International Conference on Ocean, Offshore and Arctic Engineering Busan, South Korea: OMAE2016-54111
https://doi.org/10.1115/OMAE2016-54111
van den Boom, HJJ., Dekker, JN., & van Elsacker, AW. (1987). Dynamic Aspects of Offshore Riser and Mooring Concepts. Offshore Technology Conference Houston USA: OTC-5531 405-416.
https://doi.org/10.4043/5531-MS
Wang, J., Duan, M., Fan, J., & Liu, Y. (2013). Static Equilibrium Configuration of Deepwater Steel Lazy-Wave Riser. Proceedings of 23th International Offshore and Polar Engineering Conference Anchorage, USA: 1 995-998.
Wang, J., Duan, M., & He, R. (2018). A Nonlinear Dynamic Model for 2D Deepwater Steel Lazy-Wave Riser Subjected to Top–End Imposed Excitations.
Ships and Offshore Structures,
13(3), 330-342.
https://doi.org/10.1080/17445302.2017.1382663