草莓视频 (严凯馆 601室) Email/电邮:[email protected] Address/地址:1 Xikang Road,Nanjing 210098, China (南京市鼓楼区西康路1号。邮编:210098) |
陶龙宾分别于华南理工大学和西澳大利亚大学获得学士、硕士 (SCUT) 和博士(UWA) 学位。硕士毕业后,曾经就职于广州海事局以及西澳大利亚州造船厂。博士毕业后,先后就职于澳大利亚Griffith University(讲师、高级讲师), 英国Newcastle University(劳氏船级社海洋工程讲席教授),University of Strathclyde(Global Talent Attraction Platform (GTAP) 海洋工程教授)。陶教授迄今发表了近100篇学术论文在国内外相关领域学刊上,包括:Journal of Fluid Mechanics, Physics of Fluids, Journal of Geophysical Research – Oceans, Computer Methods in Applied Mechanics and Engineering, Journal of Fluids and Structures,Journal of Computational Physics, Ocean Engineering, Applied Ocean Research, Marine Structures, Coastal Engineering, 以及近70篇论文在国际会议发表。他的研究领域包括:船舶与海洋工程水动力学,海洋新能源开发及应用,海洋智能与无人技术和深海技术与装备。陶教授是多个国际学术期刊的编委或副主编 (ASME Journal of Offshore Mechanics and Arctic Engineering, ASCE Journal of Waterway, Port, Coastal and Ocean Engineering, Ocean Engineering, Journal of Ocean Engineering and Marine Energy),并长期服务于多个国际学术、行业技术委员会包括:ITTC、ISSC、OMAE专业委员会,英国劳氏船级社技术委员会(Lloyd’s Register Technical Committee)。陶龙宾是多个国家主要科研基金的评审专家。他曾多次作为专家组成员与英国代表团 (UKBI) 出访。陶教授还曾作为专家证人为国际重大海事案件提供专家证词(Expert Witness)。 Email/邮箱:[email protected] |
教育经历/Academic Qualifications 1981年9月至1985年7月,华南理工大学船舶与海洋工程系本科学习,获学士学位 1985年9月至1988年7月,华南理工大学船舶与海洋工程系硕士研究生,获硕士学位 1997年4月至2001年9月,西澳大利亚大学石油与天然气学院博士研究生,获博士学位。 |
工作经历/Employment History 1988年8月至1994年6月,交通部广州海上安全监督局,任职工程师 1994年8月至1997年4月,西澳大利亚造船厂,任职船舶设计师 2001年9月至2008年12月,澳大利亚格里菲斯大学工程学院 (Griffith University, Australia),任职讲师、高级讲师 2009年1月至2017年9月,英国纽卡斯尔大学海洋科学与技术学院 (Newcastle University, UK),任职劳氏船级社海洋工程讲席教授 2017年10月至2024年9月,英国思克莱德大学船舶与海洋工程学院 (University of Strathclyde, UK),任职GTAP海洋工程教授 2024年11月至今,草莓视频 ,任职海洋工程教授 Visiting positions: 2005年2月至2005年6月,法国中央工学院(马赛)(Department of Hydrodynamics, Ecole Central Marseille, France),任职访问教授 2008年9月至2008年10月,中科院力学所 (Institute of Mechanics, Chinese Academy of Science),任职高级访问学者 2009年1月至2011年12月,澳大利亚格里菲斯大学工程学院 (Griffith University),任职访问教授 2009年9月至2024年11月,上海交通大学船舶海洋与土木工程学院 (School of Naval Architecture, Ocean and & Civil Engineering, Shanghai Jiao Tong University),任职访问讲席教授 2014年6月至2019年7月,哈尔滨工程大学船舶工程学院 (College of Shipbuilding Engineering, Harbin Engineering University),任职访问特聘教授 2019年9月至2020年6月,波兰格但斯克理工大学(Faculty of Ocean Engineering & Ship Technology, Gdańsk University of Technology, Poland),任职访问教授 |
研究方向/Research Areas 船舶与海洋工程水动力学/Numerical & Experimental Modelling of Hydrodynamics for Ships & Offshore Structures 海洋智能系统与无人技术/Marine Intelligent Systems and Unmanned Technology 新型船舶与海工结构物设计与制造/Development of New Concept of Ships and Offshore Platforms 深海资源开采技术与装备/Deep-Sea Resource Exploitation Technology and Equipment 海洋可再生能源/Offshore Renewable Energy Systems 仿生水下软体机器人技术/Bio-inspired underwater soft robotics |
科研项目/Research Grants (Selected) 1.外专项目: “面向下一代海上风电开发的智能化运维解决方案”, (01/2025 – 12/2026,¥400,000,项目负责人) . 2.Scottish Government Emerging Energy Technologies Fund – EETF (苏格兰新兴能源技术项目): “Tank Testing of Hydrogen Offshore Transfer System”, (07/2023 – 06/2024,£100,000,参与人) . 3.Innovate UK – CMDC3(英国创新局项目): “TransShip II – RV Prince Madog Hydrogen Retrofit”, (04/2023 – 03/2025,£4,229,858, 参与人) . 4.Innovate UK – CMDC2(英国创新局项目): “Project Zero – Design for Construction of Zero Emission Research and Offshore Service Vessel with Modular Alternative Fuel Testbed Capabilities”, (01/2023 – 08/2023,£737,272, 参与人). 5.EU-HORIZON (欧盟地平线项目): “RESHIP – Redefine energy Efficiency solutions for hydrogen powered SHIPs in marine and inland waterway”, 09/2022 –08/2025, £4,994,149.00, 参与人). 6.Innovate UK & DfT, UK (英国创新局&交通部项目): “Smart Maritime Land Operations – Land, Sea and Port Integration of a Smart Hydrogen Highway”, (10/2021 – 11/2024, £1,252,000.0,项目负责人). 7.Innovate UK – CMDC1(英国创新局项目): “TransShip – Transition to hydrogen powered ocean-going and short-sea shipping with enabling retrofit technologies” ,(09/2021 – 03/2022, £578,980,参与人). 8.Innovate UK(英国创新局项目):“Re-Charge LOHC@Sea – Emission Free Propulsion of Offshore Service Vessels” (9/2020 – 03/2022,£116,335.20, 项目负责人). 9.Scottish Government Energy Technology Partnership Fund – ETP(苏格兰能源技术项目):“SPMS Inspector – Wind Turbine Mooring System for Sub-Sea Inspections”, (02/2020 – 02/2021, £13,500, 项目负责人). 10.R&D Development Fund (英国Flintstone 技术公司):“Alternative mooring system for FRSU in shallow waters: Hydrodynamic and mooring analysis for floating regasification and storage unit”, (07/2018 – 03/2019, £19,006, 项目负责人). 11.R&D Development Fund (英国Flintstone 技术公司): “Benchmark study of floating offshore wind turbines”, (03/2018 – 06/2019, £30,785, 项目负责人). 12.Scottish Government Energy Technology Partnership Fund – ETP(苏格兰能源技术项目):“Dynamic analysis of Axis TLB Offshore Wind supporting structures”, (10/2017 – 07/2018,£19,000, 项目负责人). 13.British Council/Chinese Scholarship Commission(中英国际合作项目):“Freak waves and the impact on deepwater offshore structures”,(12/2012 – 03/2015, £36,000 + ¥208,000, 项目负责人). 14.UK Regional Development fund – Siemens(英国区域发展基金项目):“Offshore Platform Designs for Windfarm Projects – AC and HVDC ”, (12/2012-03/2014, £69,478,项目负责人). 15.Research Council UK (EPSRC)(英国研究基金会项目):“GLOBAL Sustainable Energy through China-UK Research Engagement (SECURE) ”, (04/2012-03/2013, £500,000, 参与人). 16.Australia Research Council ARC-LIEF(澳大利亚研究基金会项目):“Hydrodynamics and water quality field research facility”, (2005, Funding No. LE0560828: AUS $363,288, 参与人). 17.Australia Research Council ARC-Discovery(澳大利亚研究基金会项目): “Coupling models for ocean waves, groundwater and porous seabed interaction”, (2004~2007, Funding No. DP0450906: AUS $365,000,项目负责人). 18.Australia Research Council ARC-Linkage(澳大利亚研究基金会项目): “Flow generated by ducted surface pumps: buoyant jets at high Reynolds number and low Froude number”, (2003~2005, Funding No. LP0349024: AUS $69,000,项目负责人). 19.Griffith University Research Infrastructure Grant(格里菲斯大学研究设施项目): “Hydrodynamic experimental analysis package of floating offshore structures”, (2003,AUS $134,000,项目负责人). |
研究论文/ Research Publications (Selected) 1.Wu, W., Xiao, L., Tao, L., Kou, Y. and Yang, Y. (2026): On wedge aerated water entry: Experiment and theory,Journal of Fluid Mechanics, 1026, A7. 10 January 2026. 2.Lian, Y., Chen, Q., Zheng, J., Zhang, J., Sheng, D., Tao, L., Shu, S., Chen, W., Zhou, M., Yim, S.C. (2025): Effects of water level variation on the response of mooring systems for offshore floating photovoltaic platform. Ocean Engineering, 339, 122088. 15 November 2025. 3.Katherine Smith, Thomas Davey, David Forehand, Longbin Tao, Saishuai Dai, Ajit C Pillai (2025): Characterisation of rope candidates for representing synthetic mooring lines in the context of scaled tank testing. Ocean Engineering, 328, 121059. 1 June 2025. 4.Tao Zou, Jian Jiang, Haijun Li, Junfeng Du, Longbin Tao (2025): Structural responses of offshore multi-body floating photovoltaic array under different connection conditions. Applied Ocean Research, 158, 104544. May 2025. 5.Iman Ramzanpoor, Martin Nuernberg and Longbin Tao (2023): Coupled aero-hydro-elastic analysis of 10 MW TLB floating offshore wind turbine. Journal of Ocean Engineering and Science, 10(1), pp. 29-58. February 2025. 6.Zhen Liu, Haipeng Zhang, Lei Shi, Kaiyuan Shi, Gang Chen, Longbin Tao (2025): Numerical and experimental investigation of motion characteristics of a travelling trimaran encountering a freak wave. Ocean Engineering, 317, 120060. 1 February 2025. 7.Qihang Chen, Jianmin Yang, Wenhua Zhao, Longbin Tao, Jinghang Mao, Changyu Lu, (2024): Al-based dynamic avoidance in deep-sea mining. Ocean Engineering, 311, 118945. 1 November 2024. 8.Yulin Deng, Xiudi Ren, Martin Nuernberg, Longbin Tao, (2024): Launch and recovery of a work class ROV through wave zone in small offshore service vessel. Ocean Engineering, 309, 118541, 1 October 2024. 9.Qihang Chen, Jianmin Yang, Wenhua Zhao, Longbin Tao, Jinghang Mao, Zhiyuan Li, (2024): Algorithms for Dynamic Control of a Deepsea Mining Vehicle Based on Deep Reinforcement Learning. Ocean Engineering, 298, 117199. 15 April 2024. 10.Xue Jiang, Zihao Li, Longbin Tao, Yewen Chen, Weiming Zeng, Chang Cai, Guibing Zhu, Qing’an Li, (2024): Development and characterisation of an AI-in-the-loop testing platform for floating wind turbines Part I: construction, validation and benchmark testing. Ocean Engineering, 297, 116968. 1 April 2024. 11.Ming Zhang, Longbin Tao,Martin Nuernberg, Zhi-Ming Yuan, (2024): Conceptual design of an offshore hydrogen platform. International Journal of Hydrogen Energy, 59, 1004-1013. 15 March 2024. 12.Iman Ramzanpoor, Martin Nuernberg and Longbin Tao (2024): Benchmarking study of 10 MW TLB floating offshore wind turbine. Journal of Ocean Engineering and Marine Energy, 10(1), February 2024. 13.Mujahid Elobeid, Ajit C. Pillai, Longbin Tao, David Ingram, Erik, Pedro Mayorga (2024): Implications of wave-current interaction on the dynamic responses of a floating offshore wind turbine. Ocean Engineering, 292, 116571. 15 January 2024. 14.Mingxin LI, Suyong Pan, Yong Chen, Zhi-Ming Yuan, Longbin Tao (2023): Time-domain numerical simulation for multi-ships moving in waves with forward speed. Ocean Engineering, 290, 116325. 15 December 2023. 15.Qingkai Zhao, Hang Xu, Longbin Tao (2023): Analysis of periodic pulsating nanofluid flow and heat transfer through a parallel-plates channel in the presence of magnetic field. Applied Mathematics and Mechanics (English Edition), 44(11), pp. 1957-1972, November 2023. 16.Mingxin LI, Yi Chen, Zhi-Ming Yuan, Yong Chen, Longbin Tao (2023): Interference Effects on the Upstream Wave Generated by the Catamaran Moving Across a Depth Change a depth change. Ocean Engineering, 287 (2), 115939. 1 November 2023. 17.Ji-tuan Feng, Yunlong Liu, Shi-ping Wang, Shuai Zhang, and Longbin Tao (2023): Numerical analysis of nonlinear interaction between a gas bubble and free surface in a viscous compressible liquid. Physics of Fluids, 35 (7), 10 July 2023. DOI: 10.1063/5.0147605 18.Yuan Zhang, Guoyang Zhang, Longbin Tao, Chao Wang, Liyu Ye, Shuai Sunand Kang Han (2023): Study and discussion on computational efficiency of ice-structure interaction by Peridynamic. Journal of Marine Science and Engineering, 11(6), 1154. 19.Ming-Xin LI, Zhi-Ming YUAN, Longbin Tao (2023): Wash wave generated by ship moving across a depth change. Ocean Engineering, 275, 114073. 1 May 2023. 20.Yuan Zhang, Longbin Tao, Liyu Ye,Chao Wang, Shuai Sun, Wenjun Lu (2023): An updated fast continuous contact detection algorithm and its implementation in case study of ice-structure interaction by Peridynamics. Marine Structures, 89, 103406. 31 May 2023. 21.LI Ming-Xin, YUAN Zhi-Ming, BAI Xu, LI Yong-zheng, CHENG Yong, TAO Longbin (2023): Numerical study on the wash waves generated by ship moving over the uneven bottom. China Ocean Engineering, 37 (1): 145-153. February 2023. 22.Xingda Ji, Tao Zou, Xu Bai, Xinbo Niu and Longbin Tao (2023): Fatigue assessment of flange connections in offshore wind turbines under initial flatness divergence. Frontiers in Energy Research, Section Wind Energy. 11, 1127957, 27 February 2023. 23.Tao Zou, Xinbo Niu, Xingda Ji, Xiuhan Chen, Longbin Tao (2023): The projection of climate change impact on the fatigue damage of offshore floating photovoltaic structures. Frontiers in Marine Science, 10, 1065517, 2023. 24.Tao Zou, Xinbo Niu, Xingda Ji, Mingxin Li and Longbin Tao (2022): The impact of initial imperfections on the fatigue assessment of tower flange connections in floating wind turbines: a review. Frontiers in Marine Science, 9, 1063120. 14 November 2022. 25.Chaoshuai Han, Changguan Mo, Longbin Tao, Yongliang Ma, Xu Bai (2022): An efficient fatigue assessment model of offshore wind turbine using a half coupling analysis. Ocean Engineering, 263, 112318. 1 November 2022. 26.Zhen Liu, Jinhui He, Yang Meng, Haibin Zhang, Yaohua Zhou and Longbin Tao (2022): Numerical and Experimental study on the influence of moonpool on the motion performance and stability of a drillship. Ocean Engineering, 262, 112241. 15 October 2022. 27.Yuan Zhang, Longbin Tao, Chao Wang and Shuai Sun, (2022): Peridynamic analysis of ice fragmentation under explosive loading on varied fracture toughness of ice with fully coupled thermomechanics. Journal of Fluids and Structures, 112, 103594. July 2022. 28.Mojtaba Ezoji, Naser Shahbakhty, Longbin Tao, (2022): Hydrodynamic damping of solid and perforated heave plates oscillating at low KC number based on experimental data: A review. Ocean Engineering, 253, 111247. 1 June 2022. 29.Yang Zhang, Xuanlie Zhao, Jing Geng, Malin Göteman,Longbin Tao(2022): Wave power extraction and coastal protection by a periodic array of oscillating buoys embedded in a breakwater, Renewable Energy, 190, 434-456, May 2022. 30.Callum Stark, Yuxin Xu, Ming Zhang, Zhiming Yuan, Longbin Tao, Weichao Shi, (2022): Study on Applicability of Energy-Saving Devices to Hydrogen Fuel Cell-Powered Ships. Journal of Marine Science and Engineering, March 2022, 10, 388, Jmse10030388. 31.Yang Zhang, Xuanlie Zhao, Jing Geng, Longbin Tao (2021): A novel concept for reducing wave reflection from OWC structures with application of harbor agitation mitigation/coastal protection: Theoretical investigations, Ocean Engineering, 242, 15 December 2021, 110075. 32.Xiudi Ren, Longbin Tao, Yibo Liang and Duanfeng Han (2021): Nonlinear wave surface elevation around a multi-column offshore structure, Ocean Engineering, 238, 109757, 15 October 2021. 33.Xiudi Ren, Longbin Tao (2021): Nonlinear hydrodynamic characteristics of a multi-body platform system, European Journal of Mechanics – B/Fluids, 89, 509-524, Sep-Oct 2021. 34.Yuan Zhang, Longbin Tao, Chao Wang, Liyu Ye and Shuai Sun, (2021): Numerical study of icebreaking process with two different bow shapes based on developed particle method in parallel scheme. Applied Ocean Research, 114, 102777, September 2021. 35.Yuan Zhang, Longbin Tao, Chao Wang, Liyu Ye and Chunyu Guo, (2021): Numerical study on dynamic icebreaking process of an icebreaker by ordinary state-based Peridynamics and continuous contact Detection Algorithm. Ocean Engineering, 233, 109148, 01 August 2021. 36.Qingkai Zhao, Hang Xu, Longbin Tao (2021): Two-layer nanofluid flow and heat transfer in a vertical microchannel with interfacial electrokinetic effects. International Journal of Numerical Methods for Heat and Fluid Flow, 31(7), pp. 2347-2372, 06 July 2021. 37.ZL Tian, YL Liu, A-Man Zhang and Longbin Tao (2020): Energy dissipation of pulsating bubbles in compressible fluids using the Eulerian finite-element method, Ocean Engineering, 196, January 2020, 106714. 38.Ming-Xin Li, Zhi-Ming Yuan, Longbin Tao (2021): An iterative time-marching scheme for the investigation of hydrodynamic interaction between multi-ships during overtaking. Journal of Hydrodynamics, 33 (3), 468-478, 30 June 2021. 39.Yibo Liang and Longbin Tao (2020): Vortex Shedding Characteristics of Multi-Column Structure with or Without Horizontal Connections,Marine Structure, 72, 102766, July 2020. 40.Qingkai Zhao, Hang Xu, Longbin Tao (2020): Flow and heat transfer of nanofluid through a horizontal microchannel with magnetic field and interfacial electrokinetic effects. European Journal of Mechanics – B/Fluids, 80, pp.72-79, March-April 2020. 41.Yibo Liang, Longbin Tao and Longfei Xiao (2020): Energy transformation on flow-induced motions of multiple cylindrical structures with various corner shapes, Physics of Fluids, 32 (2) February 2020, 027105. 42.ZL Tian, YL Liu, A-Man Zhang, Longbin Tao and Liang Chen (2020): Jet development and impact load of underwater explosion bubble on solid wall, Applied Ocean Research, 95, February 2020, 102013. 43.ZL Tian, YL Liu, A-Man Zhang and Longbin Tao (2020): Energy dissipation of pulsating bubbles in compressible fluids using the Eulerian finite-element method, Ocean Engineering, 196, January 2020, 106714. 44.Sudheesh Ramadasan, Longbin Tao, and Arun Dev (2019): Vortex Induced Vibration of Jack-ups with Cylindrical Legs in Multiple Modes, Marine Structures, 67, 102637, September 2019. 45.Rui Han, Longbin Tao, A-Man Zhang and Shuai Li (2019): Experimental and numerical investigation of the dynamics of a coalesced oscillating bubble near a free surface, Ocean Engineering, 186, 106096, August 2019. 46.Rui Han, Longbin Tao, Aman Zhang and Shuai Li (2019): A three-dimensional modelling for coalescence of multiple cavitation bubbles near a rigid wall,Physics of Fluids, 31 (6) 062107, June 2019. 47.Yufeng Kou, Longfei Xiao, Longbin Tao and Tao Peng, (2019): Performance characteristics of a conceptual ring-shaped spar-type VLFS with double-layered perforated-wall breakwater, Applied Ocean Research, 86, 28-39, May 2019. 48.X.Y. Cao, L. Tao, A.M. Zhang, F.R. Ming, (2019): Smoothed particle hydrodynamics (SPH) model for coupled analysis of a damaged ship with internal sloshing in beam seas, Physics of Fluids, 31 (3) 0321031, March 2019. 49.Martin Nuernberg, Longbin Tao (2018): Experimental Study of Wake Characteristics in Tidal Turbine Arrays.Renewable Energy, 127, 168-181, November 2018. 50.Shangmao Ai, Liping Sun, Longbin Tao, Solomon Yim (2018): Modeling and Simulation of Deepwater Pipeline S-lay with Coupled Dynamic Positioning, Journal of Offshore Mechanics and Arctic Engineering, ASME, 140(5): 051701-051701-8. 51.Wu, J.M., Xu, Y., Tao, L.B., Yu, M., Dou, Y.Z. (2018): An integrated hydrodynamics and control model of a tethered underwater robot, China Ocean Engineering, 32(5), 557-569. 52.Gao, S., Tao, L., Tian, X. and Yang, J. (2018): Flow around an inclined circular disk,Journal of Fluid Mechanics, 851, 687-714. 25 September 2018. 53.De Wang Chia, Longbin Tao, Arun Dev, Xin Wang and Yali Zhang (2018): Experimental research on kinematics of breaking waves,Journal of Hydrodynamics, 30 (3), doi.org/10.1007/s42241-018-0045-2. 54.Gao, S., Tao, L.B., Kou, Y.F., Lu, C., Sun, J.L. (2018): Numerical and experimental study on hydrodynamic performance of a novel semi-submersible concept, China Ocean Engineering, 32 (2), 144-156. 55.Qingkai Zhao, Hang Xu, Longbin Tao (2018): Nanofluid flow and heat transfer in a microchannel with interfacial electrokinetic effects. International Journal of Heat and Mass Transfer, 124, 158-167, September 2018. 56.X.Y. Cao, F.R. Ming, A.M. Zhang, L. Tao, (2018): Multi-phase SPH modelling of air effect on the dynamic flooding of a damaged cabin, Computers and Fluids, 163, 7-19, 15 February 2018. 57.Martin Nuernberg and Longbin Tao (2018): Three-dimensional tidal turbine array simulations using OpenFOAM with dynamic mesh, Ocean Engineering, 147, 629-646 1 January 2018. 58.Wei Qiu, Dong-Yeon Lee, Halvor Lie, Jean-Marc Rousset, Takashi Mikami, Sergio Sphaier, Longbin Tao, Xuefeng Wang, Viacheslav Magarovskii (2017): Numerical benchmark studies on drag and lift coefficients of a marine riser a high Reynolds numbers, Applied Ocean Research, 69, 245-251, December 2017. 59.Yibo Liang, Longbin Tao, Mingyue Liu, Longfei Xiao, (2017): Experimental and Numerical Study on Vortex-Induced-Motions of a Deep-Draft Semi-Submersible Concept, Applied Ocean Research, 67, 169-187, September 2017. 60.Mingyue Liu, Longfei Xiao, Yibo Liang, Longbin Tao (2017): Experimental and numerical studies into the pontoon effect on vortex-induced motions of deep-draft semi-submersibles, Journal of Fluids and Structures, 72, 59-79, 1 July 2017. 61.Longfei Xiao, Haining Lu, Longbin Tao, Lijun Yang (2017): LH-moment estimation for statistical analysis on the wave crest distributions of a deepwater spar platform, Marine Structures, 52, 15-33. 62.Xinliang Tian, Longbin Tao, Xin Li, Jianmin Yang (2017): Hydrodynamic coefficients of oscillating flat plates at 0.15≤KC≤3.15, Journal of Marine Science and Technology (doi:10.1007/s00773-016-0401-2). 63.Xinliang Tian, Longfei Xiao, Xiangdong Zhang, Jianmin Yang, Longbin Tao, and Dan Yang (2017): Flow around an oscillating circular disk at low to moderate Reynolds numbers, Journal of Fluid Mechanics, 812, pp. 1119-1145, 10 February 2017. 64.Yibo Liang and Longbin Tao (2017): Interaction of vortex shedding processes on the flow over a Deep-Draft Semi-Submersible,Ocean Engineering, 141, 427-449, 1 September 2017. 65.Qingkai Zhao, Hang Xu, Longbin Tao (2017): Unsteady Bioconvection Squeezing Flow in a Horizontal Channel with Chemical Reaction and Magnetic Field Effects. Mathematical Problems in Engineering, 2017, 2541413. 66.Torres-Lopez, J., Tao, L., Xiao, L. and Hu, Z. (2017): Experimental study on the hydrodynamic behaviour of a FPSO in a deepwater region of the Gulf of Mexico,Ocean Engineering, 129, 549-566, 1 January 2017. 67.Ikenna A. Okaro and Longbin Tao (2016): Reliability analysis and optimisation of subsea compression system facing operational covariate stresses, Reliability Engineering & System Safety, 156, 159-174, 1 December 2016. 68.Liu, Z., Lin, Z. and Tao, L. (2016): Nonlinear wave-current interaction in water of finite depth, Physics of Fluids, 28 (12) 127104, 1 December 2016. 69.Liu, Z., Lin, Z., Tao, L. and Lan, J. (2016): Nonlinear wave-current interaction in water of finite depth, Journal of Waterway, Port, Coastal and Ocean Engineering,ASCE, 142 (6), (04016009). 70.Qingkai Zhao, Hang Xu, Longbin Tao, A. Raees, Qiang Sun (2016): Three-dimensional free bio-convection of nanofluid near the stagnation point on a general curved isothermal surface, Applied Mathematics and Mechanics, 37 (4), 417-432. 71.Xiao, L.F., Yang, J.M, Peng, T. and Tao, L. (2016): A free surface interpolation approach for rapid simulation of short waves in meshless numerical wave tank based on the radial basis function, Journal of Computational Physics, 307C, 203-224, 15 February 2016. 72.Lu, W., Yang, J.M., Tao, L. (2016): Numerical study on the energy structure of the super-rogue waves, Ocean Engineering, 113, 295-307. 73.Longfei Xiao, Haining Lu, Xin Li, Longbin Tao (2016): Probability analysis of wave run-ups and air gap response of a deepwater semi-submersible platform using LH-moments estimation method, Journal of Waterway, Port, Coastal and Ocean Engineering,ASCE, 142 (2), (04015019), 2016. 74.Qingkai Zhao, Hang Xu, Longbin Tao (2016): Homogeneous-heterogeneous reactions in boundary-layer flow of a nanofluid near the forward stagnation point of a cylinder, Journal of Heat Transfer, ASME, 139(3) 034502. 75.Xiao, L.F., Kou, Y.F., Tao, L. and Yang, J.M. (2016): A comparative study on hydrodynamic performance of double-layered perforated wall breakwaters attached to a ring-shaped VLFS, Ocean Engineering, 111, 279-291. 76.Xiao, L.F., Yang, J.M., Tao, L. and Li, X. (2015): Shallow water effects on high order statistics and probability distributions of wave run-ups along FPSO broadside, Marine Structures, 41, 1-19, 1 April 2015. 77.Lin, Z., Tao, L., Pu, Y. and Murphy, AJ (2014): Fully nonlinear solution of bi-chromatic deepwater waves, Ocean Engineering, 91, 290-299. 78.Xiao, L.F., Tao, L., Yang, J.M. and Li, X. (2014): An experimental investigation on wave run-up along the broadside of a single point moored FPSO exposed to oblique waves, Ocean Engineering, 88, 81-90, 15 September 2014. 79.Qiu, W., Junior, J., Lee, D. Lie, H., Magarovskii, V., Mikami, T., Rousset, J.M., Sphaier, S., Tao, L. and Wang, X. (2014): Uncertainties related to predictions of loads and responses for ocean and offshore structures, Ocean Engineering, 86, 58-67. 80.Zhao, W., Yang, J., Hu, Z., Xiao, L. and Tao, L. (2014): Hydrodynamics of a 2D vessel including internal sloshing flows, Ocean Engineering, 84, 45-53. 81.Zhao, W., Yang, J., Hu, Z. and Tao, L. (2014): Coupling between roll motions of an FLNG vessel and internal sloshing, Journal of Offshore Mechanics and Arctic Engineering, ASME, 136(2). 82.Zhao, W., Yang, J., Hu, Z. and Tao, L. (2014): Coupled analysis of nonlinear sloshing and ship motions, Applied Ocean Research 47, 85-97. 83.Zhao, W., Yang, J., Hu, Z. and Tao, L. (2014): Prediction of hydrodynamic performance of an FLNG system in side by side offloading operation, Journal of Fluids and Structures 46, 89-110, April 2014. 84.Song, Hao and Tao, Longbin (2010): An efficient scaled boundary FEM model for wave interaction with a nonuniform porous cylinder. International Journal for Numerical Methods in Fluids, 63(1), 96-118, May 2010. 85.Song, H., Tao, Longbin and Chakrabarti, S.K. (2010): Modelling of water wave interaction with multiple cylinders of arbitrary shape, Journal of Computational Physics, 229 (5), 1498-1513, 1 March 2010. 86.Tao, Longbin, Song, Hao and Chakrabarti, S.K. (2009): Scaled boundary FEM model for interaction of short-crested waves with a concentric porous cylindrical structure, Journal of Waterway, Port, Coastal and Ocean Engineering,ASCE, 135 (5), 200-212, September 2009. 87.Tao, Longbin, Song, Hao and Chakrabarti, S.K. (2009): Wave interaction with a perforated circular breakwater of non-uniform porosity. Journal of Engineering Mathematics,65 (3), 257-271, November 2009. 88.Tao, L. and Dray, D. (2008): Hydrodynamic performance of solid and porous heave plates. Ocean Engineering, 35(10), 1006-1014, July 2008. 89.Cirella, Giuseppe and Tao, Longbin (2008): Measuring sustainability: An Application using the Index of Sustainable Functionality in South East Queensland, Australia. The International Journal of Interdisciplinary Social Sciences, 3 (8), 231-240. 90.Tao, L., Song, H. and Chakrabarti, S.K. (2007): Scaled boundary FEM solution of short-crested wave diffraction by a vertical cylinder, Computer Methods in Applied Mechanics and Engineering, 197(1-4), 232-242, 1 December 2007. 91.Song, H. and Tao, L. (2007): Short-crested wave interaction with a concentric porous cylindrical structure. Applied Ocean Research, 29 (4), 199-209, November 2007. 92.Tao, L., Song, H. and Chakrabarti, S. (2007): A new analytical solution of nonlinear progressive waves in water of finite depth. Coastal Engineering, 54(11), 825-834, November 2007. 93.Tao, L., Molin, B., Scolan, Y.-M. and Thiagarajan, K. (2007): Spacing effects of heave plates on hydrodynamics of offshore structures. Journal of Fluids and Structures,23(8), 1119-1136, November 2007. 94.Liu, C., Huhe, A. and Tao, L. (2007): Experiment Study on sediment incipience in backward-facing step flow, Journal of Hydrodynamics (Ser. B), 19(2), 173-179. 95.Cartwright, N., Baldock, T., Nielsen, P., Jeng, D.-S. and Tao, L. (2006): Swash-aquifer interaction in the vicinity of the water table exit point. Journal of Geophysical Research – Oceans,111(9), C09035, 8 September 2006. doi:10.1029/2005JC003149. 96.Wu, X., Tao, L. and Li, Yuanlin (2005): Nonlinear ship roll damping in regular and irregular waves. Journal of Offshore Mechanics and Arctic Engineering, ASME 127 (3), 205-211. 97.Tao, L. and Cai, S. (2004): Heave motion suppression of a Spar with a heave plate. Ocean Engineering, 31 (5-6), 669-692, April 2004. 98.Tao, L., Lim K. Y. and Thiagarajan, K. (2004): Heave response of a classic spar with variable geometry.Journal of Offshore Mechanics and Arctic Engineering, ASME,126 (1), 90-95. 99.Tao, L. and Thiagarajan, K. (2003): Low KC flow regimes of oscillating sharp edges, Part II: Hydrodynamic force coefficients. Applied Ocean Research, 25 (2), 53-62, April 2003. 100.Tao, L. and Thiagarajan, K. (2003): Low KC flow regimes of oscillating sharp edges, Part I: Vortex shedding observation. Applied Ocean Research, 25 (1), 21-35, February 2003. 101.Tao, L., Thiagarajan, K. and Cheng, L. (2000): On the parametric dependence of Springing Damping of TLP and Spar Columns. Applied Ocean Research, 22 (5), 281-294, October 2000. |
学术兼职/Professional Service [1] 学术期刊《海洋工程》编委(2024年10月至今 [2] 学术期刊《草莓视频 学报(自然科学版)》编委(2025年06月至今 [3] 学术期刊《Journal of Ocean Engineering and Marine Energy – Springer》副主编(2016年至今) [4] 学术期刊《Journal of Waterway, Port, Coastal and Ocean Engineering – ASCE》副主编(2014年10月至今) [5] 学术期刊《Ocean Engineering – Elsevier》编委(2011年7月至今) [6] 学术期刊《Journal of Marine Engineering and Technology – Taylor & Francis》编委(2012年– 2022年) [7] 学术期刊《Journal of Offshore Mechanics and Arctic Engineering – ASME》副主编(2007年 – 2015年) [8] “英国劳氏船级社技术委员会”委员(Lloyd’s Register LR Technical Committee Member– UK) (2011年11月至今) [9] 英国“水下工程研究学会(NSRI)学术召集人”(National Subsea Research Institute– UK) (2012年– 2017年) [10] “ASME – OMAE(美国机械工程师协会海洋工程专业技术委员会)”委员(ASME – OMAE (Offshore Technology) Technical Committee Member) (2011年 – 2022年) [11] “ITTC – Ocean Engineering Committee / ITTC国际拖曳水池会议–海洋工程专业技术委员会”委员(2010年 6 月– 2017年8 月) [12] “ISSC – Technical Committee V.2 Natural Gas Storage and Transportation / ISSC 国际船舶与海洋结构物会议–天然气储存与运输专业技术委员会”委员(2009年8 月– 2015年9 月) [13] “ISSC – Technical Committee V.6 Arctic Technology / ISSC国际船舶与海洋结构物会议– 极地技术专业委员会”委员(2015年9 月– 2017年9 月) |
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