Fully coupled effects of hull, mooring and risers model in time domain based on an innovative deep draft multi-spar

Bin Bin Li; Jin Ping Ou; Bin Teng

Fully coupled effects of hull, mooring and risers model in time domain based on an innovative deep draft multi-spar

Bin Bin Li^*
, Jin Ping Ou
, Bin Teng

^*Corresponding author for this work

School of Civil Engineering, Harbin Institute of Technology
Dalian University of Technology

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.

Original language	English
Pages (from-to)	219-234
Number of pages	16
Journal	China Ocean Engineering
Volume	24
Issue number	2
State	Published - Jun 2010
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Coupled analysis
Hull
Mooring
Nonlinear
Riser
Spar platform
Time domain

Cite this

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title = "Fully coupled effects of hull, mooring and risers model in time domain based on an innovative deep draft multi-spar",

abstract = "The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.",

keywords = "Coupled analysis, Hull, Mooring, Nonlinear, Riser, Spar platform, Time domain",

author = "Li, \{Bin Bin\} and Ou, \{Jin Ping\} and Bin Teng",

year = "2010",

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language = "英语",

volume = "24",

pages = "219--234",

journal = "China Ocean Engineering",

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TY - JOUR

T1 - Fully coupled effects of hull, mooring and risers model in time domain based on an innovative deep draft multi-spar

AU - Li, Bin Bin

AU - Ou, Jin Ping

AU - Teng, Bin

PY - 2010/6

Y1 - 2010/6

N2 - The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.

AB - The coupled hull, mooring and riser analysis techniques in time domain are widely recognized as the unique approach to predict the accurate global motions. However, these complex issues have not been perfectly solved due to a large number of nonlinear factors, e.g. forces nonlinearity, mooring nonlinearity, motion nonlinearity and so on. This paper investigates the coupled effects through the numerical uncoupled model, mooring coupled model and fully coupled model accounting mooring and risers based on a novel deep draft multi-spar which is especially designed for deepwater in 2009. The numerical static-offset, free-decay, wind-action tests are executed, and finally three hours simulations are conducted under 100-year return period of GOM conditions involving wave, wind and current actions. The damping contributions, response characteristics and mooring line tensions are emphatically studied.

KW - Coupled analysis

KW - Hull

KW - Mooring

KW - Nonlinear

KW - Riser

KW - Spar platform

KW - Time domain

UR - https://www.scopus.com/pages/publications/77955840013

M3 - 文章

AN - SCOPUS:77955840013

SN - 0890-5487

VL - 24

SP - 219

EP - 234

JO - China Ocean Engineering

JF - China Ocean Engineering

IS - 2

ER -

Fully coupled effects of hull, mooring and risers model in time domain based on an innovative deep draft multi-spar

Abstract

UN SDGs

Keywords

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