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Virtual replica of a towing tank experiment to determine the Kelvin half-angle of a ship in restricted water

Virtual replica of a towing tank experiment to determine the Kelvin half-angle of a ship in restricted water
Virtual replica of a towing tank experiment to determine the Kelvin half-angle of a ship in restricted water

The numerical simulation of ship flows has evolved into a highly practical approach in naval architecture. In typical virtual towing tanks, the principle of Galilean relativity is invoked to maintain the ship as fixed, while the surrounding water is prescribed to flow past it. This assumption may be identified, at least partly, as being responsible for the wide-scale adoption of computational solutions within practitioners' toolkits. However, it carries several assumptions, such as the levels of inlet turbulence and their effect on flow properties. This study presents an alternative virtual towing tank, where the ship is simulated to advance over a stationary fluid. To supplement the present work, the free surface disturbance is processed into Fourier space to determine the Kelvin half-angle for an example case. The results suggest that it is possible to construct a fully unsteady virtual towing tank using the overset method, without relying on Galilean relativity. Differences between theoretical and numerical predictions for the Kelvin half-angle are predominantly attributed to the assumptions used by the theoretical method. The methods presented in this work can potentially be used to validate free-surface flows, even when one does not have access to experimental wave elevation data.

Terziev, Momchil
938f71d0-02b5-414c-8c2d-9cca8cc87397
Zhao, Guangwei
a31d6b77-6d8c-490b-93d7-0e080b94fc54
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Yuan, Z.M.
1a413280-2314-4072-8266-1bf75fd1f079
Incecik, Atilla
25a12ee2-7ba6-47cf-af5d-a79de4c6a2c4
Terziev, Momchil
938f71d0-02b5-414c-8c2d-9cca8cc87397
Zhao, Guangwei
a31d6b77-6d8c-490b-93d7-0e080b94fc54
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Yuan, Z.M.
1a413280-2314-4072-8266-1bf75fd1f079
Incecik, Atilla
25a12ee2-7ba6-47cf-af5d-a79de4c6a2c4

Terziev, Momchil, Zhao, Guangwei, Tezdogan, Tahsin, Yuan, Z.M. and Incecik, Atilla (2020) Virtual replica of a towing tank experiment to determine the Kelvin half-angle of a ship in restricted water. Journal of Marine Science and Engineering, 8 (4). (doi:10.3390/jmse8040258).

Record type: Article

Abstract

The numerical simulation of ship flows has evolved into a highly practical approach in naval architecture. In typical virtual towing tanks, the principle of Galilean relativity is invoked to maintain the ship as fixed, while the surrounding water is prescribed to flow past it. This assumption may be identified, at least partly, as being responsible for the wide-scale adoption of computational solutions within practitioners' toolkits. However, it carries several assumptions, such as the levels of inlet turbulence and their effect on flow properties. This study presents an alternative virtual towing tank, where the ship is simulated to advance over a stationary fluid. To supplement the present work, the free surface disturbance is processed into Fourier space to determine the Kelvin half-angle for an example case. The results suggest that it is possible to construct a fully unsteady virtual towing tank using the overset method, without relying on Galilean relativity. Differences between theoretical and numerical predictions for the Kelvin half-angle are predominantly attributed to the assumptions used by the theoretical method. The methods presented in this work can potentially be used to validate free-surface flows, even when one does not have access to experimental wave elevation data.

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Published date: 6 April 2020

Identifiers

Local EPrints ID: 479117
URI: http://eprints.soton.ac.uk/id/eprint/479117
PURE UUID: 86cb8dce-f664-47b6-b23f-41af2634386d
ORCID for Tahsin Tezdogan: ORCID iD orcid.org/0000-0002-7032-3038

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Date deposited: 20 Jul 2023 16:36
Last modified: 17 Mar 2024 04:18

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Contributors

Author: Momchil Terziev
Author: Guangwei Zhao
Author: Tahsin Tezdogan ORCID iD
Author: Z.M. Yuan
Author: Atilla Incecik

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