Mathematical model of single-propeller twin-rudder ship

A mathematical model of a single-propeller twin-rudder ship has been developed from captive and free running model experiments. An open water rudder experiment was carried out to figure out the characteristics of the rudder. Captive experiments in a towing tank were carried out to figure out the per...

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Published in	Journal of marine science and technology Vol. 13; no. 3; pp. 207 - 222
Main Authors	Kang, Donghoon, Nagarajan, Vishwanath, Hasegawa, Kazuhiko, Sano, Masaaki
Format	Journal Article
Language	English
Published	Japan Springer Japan 01.08.2008 Springer Nature B.V
Subjects	Automotive Engineering Computer simulation Engineering Engineering Design Engineering Fluid Dynamics Hulls (structures) Marine Mathematical models Mechanical Engineering Naval engineering Offshore Engineering Original Article Rudders Running Ships Simulation Tanks Yaw Single-propeller twin-rudder system Numerical simulation Mutual interaction of twin rudders Maneuverability
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Abstract	A mathematical model of a single-propeller twin-rudder ship has been developed from captive and free running model experiments. An open water rudder experiment was carried out to figure out the characteristics of the rudder. Captive experiments in a towing tank were carried out to figure out the performance of a single-propeller twin-rudder system on a large vessel. Interactions between the hull, propeller and twin rudders, including mutual interactions between the twin rudders, were expressed with several coefficients that were calculated from the experimental results at various ship speeds. In the analysis, the unique characteristics of a single-propeller twin-rudder ship, which affects rudder forces, were explained and formulated in the mathematical model. The captive model tests were conducted with zero ship’s yaw rate, so the interaction coefficients, which are influenced by the yaw rate, are determined from free running model experiments. Validation of the mathematical model of a single-propeller twin-rudder system for a blunt body ship is carried out with an independent set of free running experiments, which were not used for determining the interaction coefficients. The validated numerical model is used for carrying out simulations. Based on simulation results, some recommendations have been proposed for installing a single-propeller twin-rudder system.
AbstractList	A mathematical model of a single-propeller twin-rudder ship has been developed from captive and free running model experiments. An open water rudder experiment was carried out to figure out the characteristics of the rudder. Captive experiments in a towing tank were carried out to figure out the performance of a single-propeller twin-rudder system on a large vessel. Interactions between the hull, propeller and twin rudders, including mutual interactions between the twin rudders, were expressed with several coefficients that were calculated from the experimental results at various ship speeds. In the analysis, the unique characteristics of a single-propeller twin-rudder ship, which affects rudder forces, were explained and formulated in the mathematical model. The captive model tests were conducted with zero ship's yaw rate, so the interaction coefficients, which are influenced by the yaw rate, are determined from free running model experiments. Validation of the mathematical model of a single-propeller twin-rudder system for a blunt body ship is carried out with an independent set of free running experiments, which were not used for determining the interaction coefficients. The validated numerical model is used for carrying out simulations. Based on simulation results, some recommendations have been proposed for installing a single-propeller twin-rudder system. [PUBLICATION ABSTRACT] A mathematical model of a single-propeller twin-rudder ship has been developed from captive and free running model experiments. An open water rudder experiment was carried out to figure out the characteristics of the rudder. Captive experiments in a towing tank were carried out to figure out the performance of a single-propeller twin-rudder system on a large vessel. Interactions between the hull, propeller and twin rudders, including mutual interactions between the twin rudders, were expressed with several coefficients that were calculated from the experimental results at various ship speeds. In the analysis, the unique characteristics of a single-propeller twin-rudder ship, which affects rudder forces, were explained and formulated in the mathematical model. The captive model tests were conducted with zero ship's yaw rate, so the interaction coefficients, which are influenced by the yaw rate, are determined from free running model experiments. Validation of the mathematical model of a single-propeller twin-rudder system for a blunt body ship is carried out with an independent set of free running experiments, which were not used for determining the interaction coefficients. The validated numerical model is used for carrying out simulations. Based on simulation results, some recommendations have been proposed for installing a single-propeller twin-rudder system.
Author	Nagarajan, Vishwanath Sano, Masaaki Hasegawa, Kazuhiko Kang, Donghoon
Author_xml	– sequence: 1 givenname: Donghoon surname: Kang fullname: Kang, Donghoon organization: IIHR-Hydroscience and Engineering, College of Engineering, The University of Iowa – sequence: 2 givenname: Vishwanath surname: Nagarajan fullname: Nagarajan, Vishwanath email: Vishwanath@naoe.eng.osaka-u.ac.jp organization: Department of Naval Architecture and Ocean Engineering, Graduate School of Engineering, Osaka University – sequence: 3 givenname: Kazuhiko surname: Hasegawa fullname: Hasegawa, Kazuhiko organization: Department of Naval Architecture and Ocean Engineering, Graduate School of Engineering, Osaka University – sequence: 4 givenname: Masaaki surname: Sano fullname: Sano, Masaaki organization: Department of Social and Environmental Engineering, Graduate School of Engineering, Hiroshima University
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Cites_doi	10.2534/jjasnaoe1968.1980.144 10.2534/jjasnaoe1968.1997.197 10.1007/s00773-006-0232-7 10.5957/jsr.1990.34.4.225 10.9749/jin.91.263 10.1007/s00773-006-0215-8
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SubjectTerms	Automotive Engineering Computer simulation Engineering Engineering Design Engineering Fluid Dynamics Hulls (structures) Marine Mathematical models Mechanical Engineering Naval engineering Offshore Engineering Original Article Rudders Running Ships Simulation Tanks Yaw
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