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Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
by Yang, Yuanping , Peng, Li , Wang, Zhiyuan , Zhang, Hao , He, Wei , Wu, Siqi , Li, Jian , Qin, Hongling
in Amplitude / Amplitudes / Aquaculture / Aquaculture equipment / Aquaculture facilities / Aquaculture industry / Boundary element method / Deep sea / Deep water / Deformation / Economic benefits / extreme conditions / Fish / Fish culture / Fish farms / flip-type aquaculture platform / Flow theory / Frequency ranges / Gravity / Hurricanes / Hydrodynamics / Kinematics / Li Peng / Mariculture / Mathematical models / Mooring lines / motion response / Movement / Numerical methods / Optimization / Potential flow / Radiation / Response analysis / Simulation / Three dimensional flow / three-dimensional potential flow theory / Typhoons / Velocity / Wave frequency / Wave motion / Waves / wind and wave current loads
2025
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Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
by Yang, Yuanping , Peng, Li , Wang, Zhiyuan , Zhang, Hao , He, Wei , Wu, Siqi , Li, Jian , Qin, Hongling
in Amplitude / Amplitudes / Aquaculture / Aquaculture equipment / Aquaculture facilities / Aquaculture industry / Boundary element method / Deep sea / Deep water / Deformation / Economic benefits / extreme conditions / Fish / Fish culture / Fish farms / flip-type aquaculture platform / Flow theory / Frequency ranges / Gravity / Hurricanes / Hydrodynamics / Kinematics / Li Peng / Mariculture / Mathematical models / Mooring lines / motion response / Movement / Numerical methods / Optimization / Potential flow / Radiation / Response analysis / Simulation / Three dimensional flow / three-dimensional potential flow theory / Typhoons / Velocity / Wave frequency / Wave motion / Waves / wind and wave current loads
2025
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Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
by Yang, Yuanping , Peng, Li , Wang, Zhiyuan , Zhang, Hao , He, Wei , Wu, Siqi , Li, Jian , Qin, Hongling
in Amplitude / Amplitudes / Aquaculture / Aquaculture equipment / Aquaculture facilities / Aquaculture industry / Boundary element method / Deep sea / Deep water / Deformation / Economic benefits / extreme conditions / Fish / Fish culture / Fish farms / flip-type aquaculture platform / Flow theory / Frequency ranges / Gravity / Hurricanes / Hydrodynamics / Kinematics / Li Peng / Mariculture / Mathematical models / Mooring lines / motion response / Movement / Numerical methods / Optimization / Potential flow / Radiation / Response analysis / Simulation / Three dimensional flow / three-dimensional potential flow theory / Typhoons / Velocity / Wave frequency / Wave motion / Waves / wind and wave current loads
2025

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Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA
Journal Article

Wave Motion Response Analysis of Flip-Type Ocean Aquaculture Platforms Based on AQWA

Yang, Yuanping,
Peng, Li,
Wang, Zhiyuan,
Zhang, Hao,
He, Wei,
Wu, Siqi,
Li, Jian,
Qin, Hongling
2025
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Overview
The stability of deep-sea aquaculture equipment under extreme sea conditions such as typhoons directly affects the safety and operational reliability of the aquaculture platform, which in turn affects the economic benefits of fish farming. Therefore, it is particularly important to systematically analyze the hydrodynamic response of aquaculture facilities using numerical methods. This paper employs the hydrodynamic analysis software AQWA, integrating the boundary element method of three-dimensional potential flow theory with the Morison equation, to conduct hydrodynamic research on a flip-type aquaculture platform. The calculations include the platform’s amplitude response operators (RAOs), added mass, as well as motion responses and mooring line tensions under extreme sea conditions. The results indicate that the platform’s sway, surge, and heave motions are highly sensitive to wave frequency in the low-frequency range, with a significant resonance phenomenon occurring at a wave frequency of 0.84 Hz. The main wind and wave responses of the platform manifest as surge and roll motions. To address this issue, it is recommended to add additional anchor chains on the short sides of the platform to effectively reduce the amplitude of surge and roll motions. Furthermore, under extreme sea conditions when the platform faces the windward waves on the short side, its motion response frequency is lower than when facing the windward waves on the long side, but the difference in response amplitude between the two conditions is small.
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Publisher
MDPI AG
Subject

Amplitude

/ Amplitudes

/ Aquaculture

/ Aquaculture equipment

/ Aquaculture facilities

/ Aquaculture industry

/ Boundary element method

/ Deep sea

/ Deep water

/ Deformation

/ Economic benefits

/ extreme conditions

/ Fish

/ Fish culture

/ Fish farms

/ flip-type aquaculture platform

/ Flow theory

/ Frequency ranges

/ Gravity

/ Hurricanes

/ Hydrodynamics

/ Kinematics

/ Li Peng

/ Mariculture

/ Mathematical models

/ Mooring lines

/ motion response

/ Movement

/ Numerical methods

/ Optimization

/ Potential flow

/ Radiation

/ Response analysis

/ Simulation

/ Three dimensional flow

/ three-dimensional potential flow theory

/ Typhoons

/ Velocity

/ Wave frequency

/ Wave motion

/ Waves

/ wind and wave current loads

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