Nonlinear Slippage of Tensile Armor Layers of Unbonded Flexible Riser Subjected to Irregular Loads

Liu, Qingsheng; Qu, Zhongyuan; Liu, Xiaoya; He, Jiawei; Wang, Gang; Wang, Sicong; Chen, Feng

doi:10.3390/jmse12050818

JMSE

2024

DOI: 10.3390/jmse12050818

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Nonlinear Slippage of Tensile Armor Layers of Unbonded Flexible Riser Subjected to Irregular Loads

Qingsheng Liu,

Zhongyuan Qu,

Xiaoya Liu

et al.

Abstract: The unbonded flexible riser has been increasingly applied in the ocean engineering industry to transport oil and gas resources from the seabed to offshore platforms. The slippage of helical layers, especially the tensile armor layers of unbonded flexible risers, contribute to the nonlinear hysteresis phenomenon, which is a research hotspot and difficulty. In this paper, on the basis of a typical eight-layer unbonded flexible riser model, the nonlinear slippage of a tensile armor layer and the corresponding non… Show more

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Parametric analysis on the global design of flexible riser under different environmental conditions using OrcaFlex

Amaechi,

Butler,

Beddu

et al. 2024

PLoS ONE

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The application of flexible risers has led to increased production of fluid contents in the marine industry. This paper presents the design challenges of a flexible riser subjected to internal pressure under deep-water conditions, at a water depth of 2000 m. Parametric variations with extensive dynamic analysis were carried out. The study highlights include the global analysis of lazy-wave configuration for the design of flexible risers, to understand the failure of flexible risers and application of hybrid configurations on flexible pipes. For the global analysis, the design of the riser was modelled in OrcaFlex by considering different sections and then analysed for the influence of effective tension, bending moment and environmental conditions. This riser model is multi-layered and was mainly subjected to the fluid pressure load and the environmental load. Model validations were performed with existing lazy-wave models. In the global design, the riser was assessed when connected to the vessel, but vessel motion was not included, additionally, three different environmental conditions were applied on the model. Also, the suitability of the adopted configuration for the proposed flexible riser was adopted considering it as a sustainable marine structure. Stress profile, tension profile and bending moment for the risers were presented and conclusions were made on the study. Some fatigue study is recommended in future study to be undertaken on the riser.

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Parametric analysis on the global design of flexible riser under different environmental conditions using OrcaFlex

Amaechi,

Butler,

Beddu

et al. 2024

PLoS ONE

View full text Add to dashboard Cite

show abstract

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Nonlinear Slippage of Tensile Armor Layers of Unbonded Flexible Riser Subjected to Irregular Loads

Cited by 1 publication

References 39 publications

Parametric analysis on the global design of flexible riser under different environmental conditions using OrcaFlex

Parametric analysis on the global design of flexible riser under different environmental conditions using OrcaFlex

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