[1. Chakrabarti S. K., Frampton R. E. (1982): Review of riser analysis techniques. Applied Ocean Research, 4(2), 73‒90.10.1016/S0141-1187(82)80002-3]Search in Google Scholar
[2. Safai Hachemi V. (1983): Nonlinear dynamic analysis of deep water risers. Applied Ocean Research, 5(4), 215‒225.10.1016/0141-1187(83)90036-6]Search in Google Scholar
[3. Ahmad S., Datta T. K. (1989): Dynamic analysis response of marine risers. Engineering Structures, 11, 179‒188.10.1016/0141-0296(89)90005-9]Search in Google Scholar
[4. Ahmad S., Datta T. K. (1992): Nonlinear response analysis of marine risers. Composite Structures, 43(2), 281‒295.10.1016/0045-7949(92)90145-P]Search in Google Scholar
[5. Wang D. D. (2006): Computational analysis on loads and motion of underwater risers. Master’s Thesis, Dalian University of Technology.]Search in Google Scholar
[6. Khan R. A., et al. (2011): Nonlinear dynamic analysis of marine risers under random loads for deep water fields in Indian offshore. Procedia Engineering, 14, 1334‒1342.10.1016/j.proeng.2011.07.168]Search in Google Scholar
[7. Qi B. (2012): Global strength analysis of ultra deepwater drilling riser. Master’s Thesis, Harbin Engineering University.]Search in Google Scholar
[8. Zhou S. W., Liu Q. Y., et al. (2013): The discovery of “One Third Effect” for deep water drilling riser: Based on the theoretical and experimental study of deformation characteristics of deep water drilling riser by ocean currents. China Offshore Oil and Gas, 25(06), 1‒7.]Search in Google Scholar
[9. Guo H. Y., Zhang L., et al. (2013): Dynamic responses of top tensioned riser under combined excitation of internal solitary wave, surface wave and vessel motion. Journal of Ocean University of China, 12(1), 6‒12.10.1007/s11802-013-2079-y]Search in Google Scholar
[10. Wang Y. B., et al. (2015): Study on lateral nonlinear dynamic response of deepwater drilling riser with consideration of the vessel motions in its installation. Computers, Materials and Continua, 48(1), 57‒75.]Search in Google Scholar
[11. Fan H. H., et al. (2017): Dynamic analysis of a hang off drilling riser considering internal solitary wave and vessel motion. Journal of Natural Gas Science and Engineering, 37, 512‒522.10.1016/j.jngse.2016.12.003]Search in Google Scholar
[12. Hu Y. L., et al. (2018): Dynamic behaviors of a marine riser with variable length during the installation of a subsea production tree. Journal of Marine Science and Technology (Japan), 23(2), 378‒388.10.1007/s00773-017-0473-7]Search in Google Scholar
[13. Olszewski A., et al. (2018): FEM analysis and experimental tests of rigid riser hanging system. Polish Maritime Research, 25(2), 108–115.10.2478/pomr-2018-0061]Search in Google Scholar
[14. Wodtke M., et al. (2018): FEM calculations in analysis of steel subsea water injection flowlines designing process. Polish Maritime Research, 25(3), 84‒93.10.2478/pomr-2018-0099]Search in Google Scholar
[15. Wang C., et al. (2019): Simulation of axial vibration characteristics of marine riser under suspension mode. Journal of System Simulation, 31(10), 2122‒2130.]Search in Google Scholar
[16. Chen L. Y., et al. (2019): Dynamic characteristic study of riser with complex pre-stress distribution. Polish Maritime Research, 26(3), 87‒97.10.2478/pomr-2019-0049]Search in Google Scholar
[17. Liu J., et al. (2018): Dynamic behavior of a deepwater hard suspension riser under emergency evacuation conditions. Ocean Engineering, 150, 138‒151.10.1016/j.oceaneng.2017.12.050]Search in Google Scholar
[18. Wilson J. F. (Ed). (1991): Dynamics of offshore structures. Beijing Petroleum Industry Press.]Search in Google Scholar
[19. Sexton R. M., Agbezuge L. K. (1976): Random wave and vessel motion effects on drilling riser dynamics. In 8th Annual Offshore Technology Conference.10.4043/2650-MS]Search in Google Scholar