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A correlation method for high-frequency response of a cargo during dry transport in high seas
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  • Journal title : Ocean Systems Engineering
  • Volume 6, Issue 2,  2016, pp.143-159
  • Publisher : Techno-Press
  • DOI : 10.12989/ose.2016.6.2.143
 Title & Authors
A correlation method for high-frequency response of a cargo during dry transport in high seas
Vinayan, Vimal; Zou, Jun;
 Abstract
Cargo, such as a Tension Leg Platform (TLP), Semi-submersible platform (Semi), Spar or a circular Floating Production Storage and Offloading (FPSO), are frequently dry-transported on a Heavy Lift Vessel (HLV) from the point of construction to the point of installation. The voyage can span months and the overhanging portions of the hull can be subject to frequent wave slamming events in rough weather. Tie-downs or sea-fastening are usually provided to ensure the safety of the cargo during the voyage and to keep the extreme responses of the cargo, primarily for the installed equipment and facilities, within the design limits. The proper design of the tie-down is dependent on the accurate prediction of the wave slamming loads the cargo will experience during the voyage. This is a difficult task and model testing is a widely accepted and adopted method to obtain reliable sea-fastening loads and extreme accelerations. However, it is crucial to realize the difference in the inherent stiffness of the instrument that is used to measure the tri-axial sea fastening loads and the prototype design of the tie-downs. It is practically not possible to scale the tri-axial load measuring instrument stiffness to reflect the real tie-down stiffness during tests. A correlation method is required to systematically and consistently account for the stiffness differences and correct the measured results. Direct application of the measured load tends to be conservative and lead to over-design that can reflect on the overall cost and schedule of the project. The objective here is to employ the established correlation method to provide proper high-frequency responses to topsides and hull design teams. In addition, guidance for optimizing tie-down design to avoid damage to the installed equipment, facilities and structural members can be provided.
 Keywords
wave slamming;impulsive response function;sea-fastening;high-frequency responses;dry transport;optimization of tie-down design and correlation method;
 Language
English
 Cited by
 References
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