CFD based form factor determination method
CFD based form factor determination method
The 1978 ITTC Power Prediction method is used to predict the propulsive power of ships through towing tank testing. The form factor approach and its determination in this method have been questioned. This paper investigates the possibility to improve the power predictions by introducing Combined CFD/EFD Method where the experimental determination of form factor is replaced by double body RANS computations applied for open cases KVLCC2 and KCS, including first-time published towing tank tests of KVLCC2 at ballast condition including an experimental uncertainty analysis specifically derived for the formfactor. Computations from nine organisations and seven CFD codes are compared to the experiments. The form factor predictions for both hulls in design loading condition compared well with the experimental results in general. For the KVLCC2 ballast condition, majority of the form factors were under-predicted while staying within the experimental uncertainty. Speed dependency is
observed with the application of ITTC57 line but it is reduced with the Katsui line and nearly eliminated by numerical friction lines. Comparison of the full-scale viscous resistance predictions obtained by the extrapolations from model scale and direct full-scale computations show that the Combined CFD/EFD Method show significantly less scatter and may thus be a preferred approach.
Korkmaz, Kadir Burak
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Werner, Sofia
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Sakamoto, Nobuaki
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Queutey, Patrick
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Deng, Ganbo
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Yuling, Gao
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Guoxiang, Dong
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Maki, Kevin J.
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Ye, Haixuan
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Akinturk, Ayhan
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Sayeed, Tanvir
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Hino, Takanori
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Zhao, Feng
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Tezdogan, Tahsin
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Demirel, Yigit Kemal
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Bensow, Rickard
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15 January 2021
Korkmaz, Kadir Burak
7643c035-963d-4e92-81b2-69aeaea3fe5d
Werner, Sofia
5f136cda-8b9e-4c2f-bb03-0428c7011cbb
Sakamoto, Nobuaki
195875d7-e023-4f8d-aba0-5cedd2d74ab9
Queutey, Patrick
638e816b-132f-4071-bd3a-95d613f8ce8e
Deng, Ganbo
04adf582-1f64-4e2e-8a73-e385461d1aa9
Yuling, Gao
d4e623e0-3e98-4d81-a322-afb1122bea1b
Guoxiang, Dong
cca9f3f9-6ebd-42d0-a085-d6b01b99020d
Maki, Kevin J.
49d43430-c81c-40c5-a797-39a8d3e4bc3f
Ye, Haixuan
f71ec500-40a3-435c-b3d1-b3b83e08db4a
Akinturk, Ayhan
268c8f4c-16be-45e1-acce-0d6400855997
Sayeed, Tanvir
52f879d0-a382-4366-8670-77f3f1746318
Hino, Takanori
1b47667a-183e-457f-9646-008a06c94c5d
Zhao, Feng
cf99c33f-07d3-48dd-93bd-896869fd84a6
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Demirel, Yigit Kemal
44a59a7c-8ba9-481d-be96-d50c46fbdf34
Bensow, Rickard
3d717f1e-beea-4fe7-b342-e95740dfb24e
Korkmaz, Kadir Burak, Werner, Sofia, Sakamoto, Nobuaki, Queutey, Patrick, Deng, Ganbo, Yuling, Gao, Guoxiang, Dong, Maki, Kevin J., Ye, Haixuan, Akinturk, Ayhan, Sayeed, Tanvir, Hino, Takanori, Zhao, Feng, Tezdogan, Tahsin, Demirel, Yigit Kemal and Bensow, Rickard
(2021)
CFD based form factor determination method.
Ocean Engineering, 220.
(doi:10.1016/j.oceaneng.2020.108451).
Abstract
The 1978 ITTC Power Prediction method is used to predict the propulsive power of ships through towing tank testing. The form factor approach and its determination in this method have been questioned. This paper investigates the possibility to improve the power predictions by introducing Combined CFD/EFD Method where the experimental determination of form factor is replaced by double body RANS computations applied for open cases KVLCC2 and KCS, including first-time published towing tank tests of KVLCC2 at ballast condition including an experimental uncertainty analysis specifically derived for the formfactor. Computations from nine organisations and seven CFD codes are compared to the experiments. The form factor predictions for both hulls in design loading condition compared well with the experimental results in general. For the KVLCC2 ballast condition, majority of the form factors were under-predicted while staying within the experimental uncertainty. Speed dependency is
observed with the application of ITTC57 line but it is reduced with the Katsui line and nearly eliminated by numerical friction lines. Comparison of the full-scale viscous resistance predictions obtained by the extrapolations from model scale and direct full-scale computations show that the Combined CFD/EFD Method show significantly less scatter and may thus be a preferred approach.
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Accepted/In Press date: 28 November 2020
e-pub ahead of print date: 12 January 2021
Published date: 15 January 2021
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Local EPrints ID: 473923
URI: http://eprints.soton.ac.uk/id/eprint/473923
ISSN: 0029-8018
PURE UUID: 01e7bdfe-29ba-45a6-a258-2995b1cd9c04
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Date deposited: 03 Feb 2023 18:09
Last modified: 17 Mar 2024 04:18
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Contributors
Author:
Kadir Burak Korkmaz
Author:
Sofia Werner
Author:
Nobuaki Sakamoto
Author:
Patrick Queutey
Author:
Ganbo Deng
Author:
Gao Yuling
Author:
Dong Guoxiang
Author:
Kevin J. Maki
Author:
Haixuan Ye
Author:
Ayhan Akinturk
Author:
Tanvir Sayeed
Author:
Takanori Hino
Author:
Feng Zhao
Author:
Tahsin Tezdogan
Author:
Yigit Kemal Demirel
Author:
Rickard Bensow
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