Full Scale Axial, Bending and Torsion Stiffness Tests of a Three Core HVAC Submarine Cable

Volume 4: Pipelines, Risers, and Subsea Systems Pub Date : 2021-06-21 DOI:10.1115/omae2021-63238

Panagiotis Delizisis, I. Dolianitis, D. Chatzipetros, Vasileios Kanas, G. Georgallis, Konstantinos Tastavridis, Antonios Stamelos, Efstratios Angelis

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引用次数: 1

Abstract

Submarine, export cables behave, to some point, as long, flexible cylindrical bodies. Their mechanical performance is crucial during laying and operating processes, which depends to a large extent on their stiffness. Although theoretical methods, used to estimate cable stiffness, are currently available, it is difficult to account for the various physical mechanisms involved, such as internal friction, residual torsion and ‘relaxation’ effects. These mechanisms are expected to affect cable stiffness and should be included some way. To represent more realistically cable stiffness, full-scale tests are performed in this paper. The deviation between theoretical and experimental values appears to be significant in certain cases: hence, non-realistic values for cable stiffness would occur if the stiffness estimation relied only on the theoretical methods. Interesting results, affording an in more depth insight and allowing for a better understanding of the cable mechanical performance, are presented in this paper.

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三芯HVAC海底电缆的全尺寸轴向、弯曲和扭转刚度试验

在某种程度上，海底出口电缆表现为长而灵活的圆柱体。在铺设和操作过程中，其力学性能至关重要，这在很大程度上取决于其刚度。虽然目前可以使用理论方法来估计缆索的刚度，但很难解释所涉及的各种物理机制，如内摩擦、残余扭转和“松弛”效应。这些机制预计会影响电缆的刚度，应该以某种方式包括在内。为了更真实地反映索刚度，本文进行了全尺寸试验。在某些情况下，理论和实验值之间的偏差似乎是显著的:因此，如果刚度估计仅依赖于理论方法，则会出现不现实的索刚度值。有趣的结果，提供了一个更深入的见解，并允许更好地理解电缆的机械性能，在本文中提出。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 4: Pipelines, Risers, and Subsea Systems

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