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Review of pipeline span analysis

Abdulhakim Adeoye Shittu (Offshore Energy Engineering Center, School of Water, Energy and Environment, Cranfield University, Cranfield, Central Bedfordshire, UK and Department of Mathematics and Statistics, Federal University Wukari, Wukari, Taraba, Nigeria)
Fuat Kara (School of Water, Energy and Environment, Cranfield University, Cranfield, Central Bedfordshire, UK)
Ahmed Aliyu (Federal University Wukari, Wukari, Taraba, Nigeria)
Obinna Unaeze (School of Water, Energy and Environment, Cranfield University, Cranfield, Central Bedfordshire, UK)

World Journal of Engineering

ISSN: 1708-5284

Article publication date: 2 April 2019

Issue publication date: 12 April 2019

276

Abstract

Purpose

The purpose of this paper is to mainly review the state-of-the-art developments in the field of hydrodynamics of offshore pipelines, identifying the key tools for analysis of pipeline free spans, their applications, their qualifying characteristics and capabilities and limitations.

Design/methodology/approach

These different analytical, numerical and semi-empirical tools available for predicting such hydrodynamic loads and their effects include VIVANA, PIPESIN, VIVSIM, SIMULATOR, FATFREE, amongst others. Inherent in these models are current effects, wave effects and/ or pipe–soil interactions.

Findings

Amongst these models, the most attention was given to the new VIVANA model because this model take into account the vortex-induced effects with respect to free-spanning pipelines (which have dominant effect in the span analysis in deep water) better than other semi-empirical models (such as Shear 7). Recent improvements in VIVANA include its ability to have arbitrary variation in speed and direction of current, as well as the ability for calculation of pure IL and combined IL-CF response. Improvements in fatigue assessments at free spans, i.e. pipe–soil interaction have been achieved through the combined frequency domain and non-linear time domain analysis methodology adopted. Semi-empirical models are still the de facto currently used in the design of free-spanning pipelines. However, there is need for further research on free-span hydrodynamic coefficients and on how in-line and cross-flow vibrations interact. Again, there is still the challenge due to VIV complexity in fully understanding the fluid structure interaction problem, as there is no consolidated procedure for its analysis. It has been observed that there is large scatter between the different codes adopted in the prediction of fatigue damage, as there lacks full-scale test data devoted to determination/validation of the coefficients used in the semi-empirical models. A case study of the preliminary design of a typical 48 in. pipeline has been presented in this study to demonstrate the use of the free-span analysis tool, DNV RP F105. Excel spreadsheet has been applied in the execution of formulas.

Originality/value

This review paper is the first of its kind to study the state-of-the-art development in pipeline free-span analysis models and demonstrate the use of analysis tool, DNV for MAFSL calculation. Hence, information obtained from this paper would be invaluable in assisting designers both in the industry and academia.

Keywords

Citation

Shittu, A.A., Kara, F., Aliyu, A. and Unaeze, O. (2019), "Review of pipeline span analysis", World Journal of Engineering, Vol. 16 No. 1, pp. 166-190. https://doi.org/10.1108/WJE-09-2017-0296

Publisher

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Emerald Publishing Limited

Copyright © 2019, Emerald Publishing Limited

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