期刊
JOURNAL OF MARINE SCIENCE AND ENGINEERING
卷 9, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/jmse9101130
关键词
offshore-renewable industry; lazy-s configuration; submarine hose; floating hose; catenary anchor leg mooring (calm) buoy; hydrodynamics; ocean engineering; bonded marine hoses; marine riser; ocean waves; floating offshore platform (fos)
资金
- Nigeria's NDDC (Niger Delta Development Commission)
- Standards Organisation of Nigeria (SON), F.C.T Abuja, Nigeria
- National Natural Science Foundation of China (NSFC) [51922064]
- MDPI's JMSE
This study investigated the dynamic behavior of submarine hoses attached to a CALM buoy in Lazy-S configuration through experimental and numerical research. The study focused on the effects of flow angles, wave height, soil stiffness, and hydrodynamic loads on the structural behavior of the submarine hoses.
Recent design challenges in ocean observations, energy storage, offloading/discharging, and loading operations in both the offshore-renewable industry have led to advances in the application of catenary anchor leg moorings (CALM) buoys. Due to different seabed profiles, soil stiffness and environmental conditions, there is the need for numerical assessment to investigate the behaviour of the submarine hoses, based on the structural and hydrodynamic behaviour. In this study, experimental and numerical investigations are carried out on the dynamic behaviour of the submarine hoses attached to a CALM buoy in Lazy-S configuration. Six mooring lines are attached to the CALM buoy with a water depth of 100 m in the numerical model. A hydrodynamic model utilising ANSYS AQWA was developed then coupled unto the dynamic model in Orcina's Orcaflex. The studies were carried out to study the effect of flow angles, wave height, soil stiffness and hydrodynamic loads on the structural behaviour of the submarine hoses. Waves at different angles to the submarine hose affected the effective tension more where the hose bends due to the floats attached. Parametric studies were carried out on both linear and nonlinear seabed models, and recommendations were made from the investigations on the submarine hose models.
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