Experimental and numerical investigation on coupled motion characteristics of a tunnel element suspended from a twin-barge

Can Yang, Sam D. Weller, Yong xue Wang, De zhi Ning, Lars Johanning*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

The coupled motion characteristics of a tunnel element, which is suspended from a twin-barge and moored to the seabed during the installation process, has been investigated using a 1:50 scaled model. Response characteristics are obtained for multiple regular wave conditions and three different immersion depths. Experimental investigation includes studies to identify system properties of individual arrangements (tunnel, twin-barge) and for the coupled tunnel & twin-barge configuration. Investigation of motion characteristics includes i) experimental studies of the tunnel element from a fixed suspension point and barge, ii) experimental studies with and without a mooring arrangement from the tunnel element to the seabed, iii) experimental study of the fully coupled tunnel & twin-barge configuration, and iv) numerical investigation of the fully coupled tunnel & twin-barge configuration using a commercial fully dynamic mooring simulation software (OrcaFlex™). The experimental investigations were carried out in the State Key Laboratory of Coastal and Offshore Engineering at Dalian University of Technology (DUT), using the ‘6-D Measurement System’ (6D-UMS) to obtain six degree of motions for both the tunnel and twin-barge. For the numerical study hydrodynamic properties were obtained from the diffraction/radiation potential code WAMIT for simplified tunnel and twin-barge elements and used to derive fully coupled motion behavior using the time-domain mooring simulation software OrcaFlex™. The results are presented in order to provide insights into the motion characteristics for the different configurations studied. The main findings indicate that the sway and roll motions for the coupled tunnel & twin-barge configuration decrease with increasing wave incidence angle and immersion depths. The use of additional mooring lines to restrain the tunnel element to the seabed played a further role in reducing the motions of the tunnel element, particularly when subjected to large amplitude and long period waves.

Original languageEnglish
Pages (from-to)201-214
Number of pages14
JournalOcean Engineering
Volume153
DOIs
Publication statusPublished - 1 Apr 2018

ASJC Scopus subject areas

  • Environmental Engineering
  • Ocean Engineering

Keywords

  • Coupled response
  • Immersed tunnel
  • Installation procedure
  • Mooring system
  • Regular waves
  • Twin-barge

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