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Junyi Liu, Xujun Chen, Heng Huang, Song Ji & Qunzhang Tu. (2022) A three-dimensional model to analyse dynamic response of VLFS based on the Kane method. Ships and Offshore Structures 0:0, pages 1-13.
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Jianqun Sun, Pengyu Jiang, Yonggang Sun, Chunhui Song & Deyu Wang. (2018) An experimental investigation on the nonlinear hydroelastic response of a pontoon-type floating bridge under regular wave action. Ships and Offshore Structures 13:3, pages 233-243.
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Articles from other publishers (39)
Yujia Wei, Shuangrui Yu, Peng Jin, Luofeng Huang, Khaled Elsherbiny & Tahsin Tezdogan. (2024) Coupled analysis between catenary mooring and VLFS with structural hydroelasticity in waves. Marine Structures 93, pages 103516.
Crossref
Crossref
Yongkang Shi, Yanji Wei, Zhi Yung Tay & Zuogang Chen. (2023) Hydroelastic analysis of offshore floating photovoltaic based on frequency-domain model. Ocean Engineering 289, pages 116213.
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Junyi Liu, Xujun Chen, Heng Huang, Song Ji & Qunzhang Tu. (2023) A Simplified Method to Analyze Dynamic Response of VLFS Based on the Kane Method. Journal of Offshore Mechanics and Arctic Engineering 145:3.
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Somansundar Sakthivel, Narendran Kumar & Sunny Kumar Poguluri. (2023) Dynamic responses of serially connected truss pontoon-MOB – A numerical investigation. Ocean Engineering 277, pages 114209.
Crossref
Crossref
Yongqiang Chen, Xiantao Zhang, Kanmin Shen & Xiudi Ren. (2023) Extension of the discrete-module-finite-element method into the interconnected large floating flexible structures. Ocean Engineering 269, pages 113549.
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Shuai Li, Shixiao Fu, Shiyuan Zhang & Yuwang Xu. (2023) Second-order sum-frequency hydroelastic analysis of a flexible structure in bichromatic waves. Ocean Engineering 269, pages 113485.
Crossref
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Yongqiang Chen, Xiantao Zhang, Lei Liu, Xinliang Tian, Xin Li & Zhengshun Cheng. (2023) A discrete-module-finite-element hydroelasticity method in analyzing dynamic response of floating flexible structures. Journal of Fluids and Structures 117, pages 103825.
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Chungkuk Jin, Gyu-Jin Kim, Sung-Jae Kim, MooHyun Kim & Hyo-Gyoung Kwak. (2023) Discrete-module-beam-based hydro-elasticity simulations for moored submerged floating tunnel under regular and random wave excitations. Engineering Structures 275, pages 115198.
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Crossref
Wenjie Li, Shitang Ke, Jing Chen, Tingrui Zhu & Hehe Ren. (2022) Hydrodynamic response and energy analysis in a very large floating structure supporting a marine airport under typhoon-driven waves. Ocean Engineering 266, pages 112987.
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Crossref
Yujia Wei, Atilla Incecik & Tahsin Tezdogan. (2022) A Fully Coupled CFD-DMB Approach on the Ship Hydroelasticity of a Containership in Extreme Wave Conditions. Journal of Marine Science and Engineering 10:11, pages 1778.
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Min Zhang & Sebastian Schreier. (2022) Review of wave interaction with continuous flexible floating structures. Ocean Engineering 264, pages 112404.
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Chungkuk Jin, Sung-Jae Kim & MooHyun Kim. (2022) Optimization of Tuned Mass Damper for Submerged Floating Tunnel with Frequency-Domain Dynamics Simulation. Journal of Advances in Applied & Computational Mathematics 9, pages 147-156.
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Yongqiang Chen, Yu Zhang, Xinliang Tian, Xiaoxian Guo, Xin Li & Xiantao Zhang. (2022) A numerical framework for hydroelastic analysis of a flexible floating structure under unsteady external excitations: Motion and internal force/moment. Ocean Engineering 253, pages 111288.
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I.B.S. Bispo, S.C. Mohapatra & C. Guedes Soares. (2022) Numerical analysis of a moored very large floating structure composed by a set of hinged plates. Ocean Engineering 253, pages 110785.
Crossref
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Liang Li. (2022) Full-coupled analysis of offshore floating wind turbine supported by very large floating structure with consideration of hydroelasticity. Renewable Energy 189, pages 790-799.
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Yong Cheng, Chen Xi, Saishuai Dai, Chunyan Ji, Maurizio Collu, Mingxin Li, Zhiming Yuan & Atilla Incecik. (2022) Wave energy extraction and hydroelastic response reduction of modular floating breakwaters as array wave energy converters integrated into a very large floating structure. Applied Energy 306, pages 117953.
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Heng Huang, Xu-jun Chen, Jun-yi Liu, Yu-ji Miao & Song Ji. (2021) A method to Estimate Dynamic Responses of VLFS Based on Multi-Floating-Module Model Connected by Elastic Hinges. China Ocean Engineering 35:5, pages 687-699.
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Xiantao ZhangDa LuYibo LiangFeargal Brennan. (2021) Feasibility of Very Large Floating Structure as Offshore Wind Foundation: Effects of Hinge Numbers on Wave Loads and Induced Responses. Journal of Waterway, Port, Coastal, and Ocean Engineering 147:3.
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Vahid Aryai, Rouzbeh Abbassi, Nagi Abdussamie, Fatemeh Salehi, Vikram Garaniya, Mohsen Asadnia, Al-Amin Baksh, Irene Penesis, Hassan Karampour, Scott Draper, Allan Magee, Ang Kok Keng, Chris Shearer, Suba Sivandran, Lim Kian Yew, Denham Cook, Mark Underwood, Andrew Martini, Kevin Heasman, Jonathan Abrahams & Chien-Ming Wang. (2021) Reliability of multi-purpose offshore-facilities: Present status and future direction in Australia. Process Safety and Environmental Protection 148, pages 437-461.
Crossref
Crossref
Farid P. Bakti, Chungkuk Jin & Moo-Hyun Kim. (2021) Practical approach of linear hydro-elasticity effect on vessel with forward speed in the frequency domain. Journal of Fluids and Structures 101, pages 103204.
Crossref
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Chungkuk Jin & MooHyun Kim. (2021) The Effect of Key Design Parameters on the Global Performance of Submerged Floating Tunnel under Target Wave and Earthquake Excitations. Computer Modeling in Engineering & Sciences 128:1, pages 315-337.
Crossref
Crossref
Chungkuk Jin, Farid P Bakti & MooHyun Kim. (2020) Multi-floater-mooring coupled time-domain hydro-elastic analysis in regular and irregular waves. Applied Ocean Research 101, pages 102276.
Crossref
Crossref
Takahito Iida & Keisuke Umazume. (2020) Wave response of segmented floating plate and validation of its homogenized solution. Applied Ocean Research 97, pages 102083.
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Azin Lamei & Masoud Hayatdavoodi. (2020) On motion analysis and elastic response of floating offshore wind turbines. Journal of Ocean Engineering and Marine Energy 6:1, pages 71-90.
Crossref
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Xiantao Zhang, Siming Zheng, Da Lu & Xinliang Tian. (2019) Numerical investigation of the dynamic response and power capture performance of a VLFS with a wave energy conversion unit. Engineering Structures 195, pages 62-83.
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Da Lu, Xinliang Tian, Wenyue Lu & Xiantao Zhang. (2019) Combined effects of raft length ratio and structural flexibility on power capture performance of an interconnected-two-raft wave energy converter. Ocean Engineering 177, pages 12-28.
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H.P. Nguyen, C.M. Wang, F. Flocard & D.M. Pedroso. (2019) Extracting energy while reducing hydroelastic responses of VLFS using a modular raft wec-type attachment. Applied Ocean Research 84, pages 302-316.
Crossref
Crossref
Wei WeiShixiao Fu, Torgeir Moan, Chunhui Song, Shi Deng & Halvor Lie. (2019) A Time-Domain Method for Hydroelasticity of a Curved Floating Bridge in Inhomogeneous Waves. Journal of Offshore Mechanics and Arctic Engineering 141:1.
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Crossref
Jialong Jiao, Yong Jiang, Hao Zhang, Chengjun Li & Chaohe Chen. (2019) Predictions of Ship Extreme Hydroelastic Load Responses in Harsh Irregular Waves and Hull Girder Ultimate Strength Assessment. Applied Sciences 9:2, pages 240.
Crossref
Crossref
Le Zhu, Fei Shao, Qian Xu, Yonggang Sun & Qingna Ma. (2018) The Effects of Moving Load on the Hydroelastic Response of a Very Large Floating Structure. Mathematical Problems in Engineering 2018, pages 1-9.
Crossref
Crossref
Xiantao Zhang, Da Lu, Yun Gao & Lifen Chen. (2018) A time domain discrete-module-beam-bending-based hydroelasticity method for the transient response of very large floating structures under unsteady external loads. Ocean Engineering 164, pages 332-349.
Crossref
Crossref
Xiantao Zhang & Da Lu. (2018) An extension of a discrete-module-beam-bending-based hydroelasticity method for a flexible structure with complex geometric features. Ocean Engineering 163, pages 22-28.
Crossref
Crossref
Zhengshun Cheng, Zhen Gao & Torgeir Moan. (2018) Hydrodynamic load modeling and analysis of a floating bridge in homogeneous wave conditions. Marine Structures 59, pages 122-141.
Crossref
Crossref
Yonggang Sun, Da Lu, Jin Xu & Xiantao Zhang. (2018) A study of hydroelastic behavior of hinged VLFS. International Journal of Naval Architecture and Ocean Engineering 10:2, pages 170-179.
Crossref
Crossref
Xiantao Zhang, Da Lu, Fei Guo, Yun Gao & Yonggang Sun. (2018) The maximum wave energy conversion by two interconnected floaters: Effects of structural flexibility. Applied Ocean Research 71, pages 34-47.
Crossref
Crossref
Wei Wei, Shixiao Fu, Torgeir Moan, Chunhui Song & Tongxin Ren. (2018) A time-domain method for hydroelasticity of very large floating structures in inhomogeneous sea conditions. Marine Structures 57, pages 180-192.
Crossref
Crossref
Wei Wei, Shixiao Fu, Torgeir Moan, Ziqi Lu & Shi Deng. (2017) A discrete-modules-based frequency domain hydroelasticity method for floating structures in inhomogeneous sea conditions. Journal of Fluids and Structures 74, pages 321-339.
Crossref
Crossref
Jin Xu, Yonggang Sun, Zhifu Li, Xiantao Zhang & Da Lu. (2017) Analysis of the Hydroelastic Performance of Very Large Floating Structures Based on Multimodules Beam Theory. Mathematical Problems in Engineering 2017, pages 1-14.
Crossref
Crossref
Yongqiang Chen, Xiantao Zhang, Lei Liu, Xinliang Tian, Xin Li & Zhengshun Cheng. (2022) A Discrete-Module-Finite-Element Hydroelasticity Method in Analyzing Dynamic Response of Floating Flexible Structures. SSRN Electronic Journal.
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