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2020 Journal Article Heaving wave energy converter-type attachments to a pontoon-type very large floating structureNguyen, H. P. and Wang, C. M. (2020). Heaving wave energy converter-type attachments to a pontoon-type very large floating structure. Engineering Structures, 219 110964, 110964. doi: 10.1016/j.engstruct.2020.110964 |
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2020 Other Outputs Extracting wave energy while reducing hydroelastic response of very large floating structuresNguyen, Huu Phu (2020). Extracting wave energy while reducing hydroelastic response of very large floating structures. PhD Thesis, School of Civil Engineering, The University of Queensland. doi: 10.14264/uql.2020.954 |
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2020 Journal Article Oscillating Wave Surge Converter-Type Attachment for Extracting Wave Energy While Reducing Hydroelastic Responses of Very Large Floating StructuresNguyen, H. P. and Wang, C. M. (2020). Oscillating Wave Surge Converter-Type Attachment for Extracting Wave Energy While Reducing Hydroelastic Responses of Very Large Floating Structures. Journal of Offshore Mechanics and Arctic Engineering, 142 (4) 042001. doi: 10.1115/1.4045916 |
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2020 Journal Article Two-mode WEC-type attachment for wave energy extraction and reduction of hydroelastic response of pontoon-type VLFSNguyen, H. P., Wang, C. M. and Luong, V. H. (2020). Two-mode WEC-type attachment for wave energy extraction and reduction of hydroelastic response of pontoon-type VLFS. Ocean Engineering, 197 106875, 1-21. doi: 10.1016/j.oceaneng.2019.106875 |
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2020 Journal Article A time-domain 3D BEM-MEM method for flexural motion analyses of floating Kirchhoff plates induced by moving vehiclesLuong, Van Hai, Nguyen, Xuan Vu, Cao, Tan Ngoc Than, Tran, Minh Thi and Nguyen, Huu Phu (2020). A time-domain 3D BEM-MEM method for flexural motion analyses of floating Kirchhoff plates induced by moving vehicles. International Journal of Structural Stability and Dynamics, 20 (03) 2050041, 2050041. doi: 10.1142/S0219455420500418 |
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2020 Conference Publication A pitching WEC-type attachment for extracting wave energy and reducing hydroelastic response of VLFSNguyen, H. P., Wang, C. M. and Pedroso, D. M. (2020). A pitching WEC-type attachment for extracting wave energy and reducing hydroelastic response of VLFS. ACMSM25, Brisbane, Australia, 4-7 December, 2018. Singapore: Springer. doi: 10.1007/978-981-13-7603-0_21 |
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2019 Journal Article Extracting energy while reducing hydroelastic responses of VLFS using a modular raft wec-type attachmentNguyen, H. P., Wang, C. M., Flocard, F. and Pedroso, D. M. (2019). Extracting energy while reducing hydroelastic responses of VLFS using a modular raft wec-type attachment. Applied Ocean Research, 84, 302-316. doi: 10.1016/j.apor.2018.11.016 |
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2019 Journal Article Optimization of modular raft WEC-type attachment to VLFS and module connections for maximum reduction in hydroelastic response and wave energy productionNguyen, H. P., Wang, C. M. and Pedroso, D. M. (2019). Optimization of modular raft WEC-type attachment to VLFS and module connections for maximum reduction in hydroelastic response and wave energy production. Ocean Engineering, 172, 407-421. doi: 10.1016/j.oceaneng.2018.12.014 |
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2018 Journal Article Reducing hydroelastic responses of pontoon-type VLFS using vertical elastic mooring linesNguyen, H. P., Dai, J., Wang, C. M., Ang, K. K. and Luong, V. H. (2018). Reducing hydroelastic responses of pontoon-type VLFS using vertical elastic mooring lines. Marine Structures, 59, 251-270. doi: 10.1016/j.marstruc.2018.02.005 |
