Hydrodynamic Characteristics of an Underwater Manipulator in Pulsating Flow

Pulsating flow is a common condition for underwater manipulators in Bohai Bay. This study aimed to investigate the effects of pulsation frequency and amplitude on the hydrodynamic characteristics of an underwater manipulator with different postures using the user-defined function (UDF) method. The l...

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Published in	Journal of marine science and application Vol. 24; no. 3; pp. 503 - 517
Main Authors	Liu, Xia, Duan, Derong, Zhang, Xiaoya, Cheng, Yujun, Zhang, Hui
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2025 Springer Nature B.V
Subjects	Aerodynamic coefficients Amplitude Amplitudes Coefficients Drag coefficient Drag coefficients Electrical Machines and Networks Engineering Geotechnical Engineering & Applied Earth Sciences Hydrodynamics Machinery and Machine Elements Manipulators Marine engineering Marine resources Offshore Engineering Power Electronics Pulsation Research Article Resource exploitation Shipbuilding Underwater Unsteady flow Vortex shedding Underwater manipulator Vortex shedding Hydrodynamic performance Flow interference Pulsating flow
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Abstract	Pulsating flow is a common condition for underwater manipulators in Bohai Bay. This study aimed to investigate the effects of pulsation frequency and amplitude on the hydrodynamic characteristics of an underwater manipulator with different postures using the user-defined function (UDF) method. The lift coefficient ( C L ), drag coefficient ( C D ), and vortex shedding of the underwater manipulator in single- and dualarm forms were obtained. Results indicated that the maximum increase in the lift and drag coefficients subjected to the pulsation parameters was 24.45% and 28%, respectively, when the fluid flowed past a single arm. Compared with the single arm, the lift and drag coefficients of the arms were higher than those of the single arm when arm 2 was located upstream. Additionally, the pulsation frequency had no obvious effect on the manipulator, but the C L and C D of arm 2 showed an obvious increasing trend with an increase in pulsation amplitude. Meanwhile, when arm 2 was located downstream, the C L and C D of arm 2 were reduced by 16.38% and 1.15%, respectively, with an increase in the pulse frequency, and the maximum increase in the lift and drag coefficients was 33.33% and 16.78%, respectively, with increasing pulsation amplitude. Moreover, the downstream wake morphology changed significantly, and a combined vortex phenomenon appeared. Finally, a theoretical basis for examining the hydrodynamic characteristics of marine engineering equipment was established to aid future marine resource exploitation.
AbstractList	Pulsating flow is a common condition for underwater manipulators in Bohai Bay. This study aimed to investigate the effects of pulsation frequency and amplitude on the hydrodynamic characteristics of an underwater manipulator with different postures using the user-defined function (UDF) method. The lift coefficient (CL), drag coefficient (CD), and vortex shedding of the underwater manipulator in single- and dualarm forms were obtained. Results indicated that the maximum increase in the lift and drag coefficients subjected to the pulsation parameters was 24.45% and 28%, respectively, when the fluid flowed past a single arm. Compared with the single arm, the lift and drag coefficients of the arms were higher than those of the single arm when arm 2 was located upstream. Additionally, the pulsation frequency had no obvious effect on the manipulator, but the CL and CD of arm 2 showed an obvious increasing trend with an increase in pulsation amplitude. Meanwhile, when arm 2 was located downstream, the CL and CD of arm 2 were reduced by 16.38% and 1.15%, respectively, with an increase in the pulse frequency, and the maximum increase in the lift and drag coefficients was 33.33% and 16.78%, respectively, with increasing pulsation amplitude. Moreover, the downstream wake morphology changed significantly, and a combined vortex phenomenon appeared. Finally, a theoretical basis for examining the hydrodynamic characteristics of marine engineering equipment was established to aid future marine resource exploitation. Pulsating flow is a common condition for underwater manipulators in Bohai Bay. This study aimed to investigate the effects of pulsation frequency and amplitude on the hydrodynamic characteristics of an underwater manipulator with different postures using the user-defined function (UDF) method. The lift coefficient ( C L ), drag coefficient ( C D ), and vortex shedding of the underwater manipulator in single- and dualarm forms were obtained. Results indicated that the maximum increase in the lift and drag coefficients subjected to the pulsation parameters was 24.45% and 28%, respectively, when the fluid flowed past a single arm. Compared with the single arm, the lift and drag coefficients of the arms were higher than those of the single arm when arm 2 was located upstream. Additionally, the pulsation frequency had no obvious effect on the manipulator, but the C L and C D of arm 2 showed an obvious increasing trend with an increase in pulsation amplitude. Meanwhile, when arm 2 was located downstream, the C L and C D of arm 2 were reduced by 16.38% and 1.15%, respectively, with an increase in the pulse frequency, and the maximum increase in the lift and drag coefficients was 33.33% and 16.78%, respectively, with increasing pulsation amplitude. Moreover, the downstream wake morphology changed significantly, and a combined vortex phenomenon appeared. Finally, a theoretical basis for examining the hydrodynamic characteristics of marine engineering equipment was established to aid future marine resource exploitation.
Author	Cheng, Yujun Zhang, Hui Zhang, Xiaoya Duan, Derong Liu, Xia
Author_xml	– sequence: 1 givenname: Xia surname: Liu fullname: Liu, Xia organization: School of Mechanical Engineering, University of Jinan – sequence: 2 givenname: Derong surname: Duan fullname: Duan, Derong email: me_duandr@ujn.edu.cn organization: School of Mechanical Engineering, University of Jinan – sequence: 3 givenname: Xiaoya surname: Zhang fullname: Zhang, Xiaoya organization: School of Mechanical Engineering, University of Jinan – sequence: 4 givenname: Yujun surname: Cheng fullname: Cheng, Yujun organization: Yantai Urban and Rural Construction School – sequence: 5 givenname: Hui surname: Zhang fullname: Zhang, Hui organization: School of Mechanical Engineering, University of Jinan
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Snippet	Pulsating flow is a common condition for underwater manipulators in Bohai Bay. This study aimed to investigate the effects of pulsation frequency and amplitude...
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SubjectTerms	Aerodynamic coefficients Amplitude Amplitudes Coefficients Drag coefficient Drag coefficients Electrical Machines and Networks Engineering Geotechnical Engineering & Applied Earth Sciences Hydrodynamics Machinery and Machine Elements Manipulators Marine engineering Marine resources Offshore Engineering Power Electronics Pulsation Research Article Resource exploitation Shipbuilding Underwater Unsteady flow Vortex shedding
Title	Hydrodynamic Characteristics of an Underwater Manipulator in Pulsating Flow
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