Influence of Heave Plate on the Dynamic Response of a 10 MW Semisubmersible Floating Platform.

Wang, Haijun; Yang, Yuhang; Guo, Yaohua; Lian, Jijian

Based on the 10 MW OO-Star semi-submersible floating platform, this study proposes internal and external heave plates to enhance its stability and explores their influence on the platform's hydrodynamic characteristics. The platform's structural behavior is analyzed in both frequency and time domains using numerical simulation methods. The study investigates the effects of the porosity and number of holes (with an equal porosity) of the inner heave plate and the opening angle (with the equal area) of the external heave plate on the platform's hydrodynamic characteristics, ultimately obtaining the optimal arrangement for the inner and external heave plates. Results indicate that the best scheme involves a 10% porosity with 16 holes, which reduces the heave amplitude by 5.7% compared to the original structure. Additionally, reducing the opening angle of the external heave plate increases the added mass and natural period in the heave and pitch directions of the platform. At an opening angle of 140°, the added mass in the heave direction can increase by 25.2% compared to the original structure. Overall, the internal and external heave plates effectively reduce the heave and pitch amplitude of the platform under severe sea conditions.

FREQUENCY-domain analysis; TIME-domain analysis; POROSITY; COMPUTER simulation; TIME management

Journal of Marine Science & Engineering, 2024, Vol 12, Issue 12, p2156

2077-1312

Academic Journal

10.3390/jmse12122156