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Simulations of dynamic interaction between a bluff body and installation vessel during launch and recovery in rough seas

Simulations of dynamic interaction between a bluff body and installation vessel during launch and recovery in rough seas
Simulations of dynamic interaction between a bluff body and installation vessel during launch and recovery in rough seas

Simulation of marine operations for launch and recovery of bluff bodies such as autonomous underwater vehicles (AUV), remotely operated vehicles (ROV) or subsea templates is traditionally performed in calm to moderate sea conditions. The reason for doing so is partly due to the interaction between the complex dynamic response of an installation vessel, a moving bluff body and the wave kinematics of the rough sea condition. This is in addition to the need for accurate hydrodynamic coefficients that would enable proper simulation and modelling of the launch and recovery process. The key objective of the current methodology is to minimize risks of damage to the vessel and total loss of assets during the deployment and recovery process for marine operations in rough sea conditions. The aim of this paper is to present the results of experimental and numerical investigation on the prediction of dynamic response of a bluff body during launch and recovery from a surface vessel in rough sea condition. Experimental measurements of hydrodynamic coefficients and responses of a large scale bluff body using a scaled model were completed. Further studies using a time-domain numerical tool have been undertaken to measure the response characteristic of bluff bodies in rough seas. The study also predicted the contributions of vessel motion in rough seas to the dynamic response of the bluff bodies. The results obtained have shown that simulation of launch and recovery operations in rough seas can be carried out efficiently if their hydrodynamic coefficients through the wave active regions of the rough seas are predicted and then adequately implemented in the simulations.

The American Society of Mechanical Engineers
Bashir, Musa B.
03146b14-6871-4656-8318-d25655175374
Evans, Mathew
0832c6fc-c198-49c3-a6d9-20a7837b56be
Benson, Simon D.
fcabbce1-415a-4c5a-95ac-e280739d1c4e
Murphy, Alan J.
8e021dad-0c60-446b-a14e-cddd09d44626
Bashir, Musa B.
03146b14-6871-4656-8318-d25655175374
Evans, Mathew
0832c6fc-c198-49c3-a6d9-20a7837b56be
Benson, Simon D.
fcabbce1-415a-4c5a-95ac-e280739d1c4e
Murphy, Alan J.
8e021dad-0c60-446b-a14e-cddd09d44626

Bashir, Musa B., Evans, Mathew, Benson, Simon D. and Murphy, Alan J. (2017) Simulations of dynamic interaction between a bluff body and installation vessel during launch and recovery in rough seas. In Proceedings of the ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering: Ocean Engineering. vol. 7A, The American Society of Mechanical Engineers. 10 pp . (doi:10.1115/OMAE2017-61319).

Record type: Conference or Workshop Item (Paper)

Abstract

Simulation of marine operations for launch and recovery of bluff bodies such as autonomous underwater vehicles (AUV), remotely operated vehicles (ROV) or subsea templates is traditionally performed in calm to moderate sea conditions. The reason for doing so is partly due to the interaction between the complex dynamic response of an installation vessel, a moving bluff body and the wave kinematics of the rough sea condition. This is in addition to the need for accurate hydrodynamic coefficients that would enable proper simulation and modelling of the launch and recovery process. The key objective of the current methodology is to minimize risks of damage to the vessel and total loss of assets during the deployment and recovery process for marine operations in rough sea conditions. The aim of this paper is to present the results of experimental and numerical investigation on the prediction of dynamic response of a bluff body during launch and recovery from a surface vessel in rough sea condition. Experimental measurements of hydrodynamic coefficients and responses of a large scale bluff body using a scaled model were completed. Further studies using a time-domain numerical tool have been undertaken to measure the response characteristic of bluff bodies in rough seas. The study also predicted the contributions of vessel motion in rough seas to the dynamic response of the bluff bodies. The results obtained have shown that simulation of launch and recovery operations in rough seas can be carried out efficiently if their hydrodynamic coefficients through the wave active regions of the rough seas are predicted and then adequately implemented in the simulations.

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More information

Published date: 25 September 2017
Venue - Dates: ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2017, , Trondheim, Norway, 2017-06-25 - 2017-06-30

Identifiers

Local EPrints ID: 484027
URI: http://eprints.soton.ac.uk/id/eprint/484027
PURE UUID: e6a7ab41-eff0-402b-bdc6-88b2e59edfd2

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Date deposited: 09 Nov 2023 17:34
Last modified: 10 May 2024 17:03

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Contributors

Author: Musa B. Bashir
Author: Mathew Evans
Author: Simon D. Benson
Author: Alan J. Murphy

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