楊建民(上海交通大學博士生導師)

楊建民(上海交通大學博士生導師)

楊建民(1958年-),男,博士。1978年~1988年於上海交通大學船舶與海洋工程系大學獲學士、碩士、博士學位。1988年博士畢業留校任教,歷任上海交通大學船舶及海洋工程系講師、副教授、教授(二級)、博士生導師、特聘教授。現任船舶海洋與建築工程學院院長,海洋工程國家重點實驗室主任,中海油上海交大深水工程技術研究中心主任,高新船舶與深海開發裝備協同創新中心副主任。長期從事船舶與海洋工程流體力學學科的教學與科研工作,發表論文200餘篇,授權和公開專利90餘項,主持承擔了50多項國家和省部級重大研究項目。

基本介紹

  • 中文名:楊建民
  • 性別 :男
  • 職務職稱 :教授
  • 所屬學科 :船舶與海洋結構物設計製造
人物經歷,研究方向,主要貢獻,獲獎記錄,科研項目,代表性論文及專著,

人物經歷

1988年3月於上海交通大學博士生畢業、獲得博士學位,1991年11月—1994年11月赴西日本流體技術研究所進行博士後研究,2001年12月—2002年2月赴美國德克薩斯A&M大學作為高級訪問學者進行研究工作。目前擔任船舶與海洋工程學院院長、海洋工程國家重點實驗室副主任、船舶與海洋工程流體力學中心實驗室主任、國際船J匝槌鞀嵋椋↖TTC)耐波性委員會委員、上海造船學會海洋工程專業技術委員會主任、中國石油工業標準化委員會海洋石油工程專業標準化技術委員會專家委員。

研究方向

1.海洋深水平台研究 、2.浮式生產系統水動力學研究、 3.海洋結構物動力定位系統研究。

主要貢獻

長期從事海洋工程流體力學、船舶推進、船舶操縱等方面的教學與科研工作,主持和承擔完成了40多項基礎研究和國內外重大工程研究項目。其中,參與激烈的國際競爭,主持承接了10多項國外重大工程項目,為提高實驗室在國際技術市場中的競爭能力和在國際海洋工程界的聲譽作出了貢獻。
在科研方面主要取得如下成果:
(1)對FPSO系統進行了深入系統的研究。主持了5個美國項目,4個挪威項目和多個國內項目,有些項目已經在國內外實際工程中得到套用。與企業合作主持國家“863計畫”重大專項課題“淺水超大型浮式生產儲油卸載系統關鍵技術研究”,首次提出了大型FPSO“淺水效應”概念。
(2)對海洋深水平台進行了深入的研究,如主持了與美國Novellent公司合作研究項目“GSpar研究”,國內首次進行這類平台的研究。
(3)提出了任意三維物體繞流的三角元源匯法、三維機翼分離流的理論計算方法、計算斜航及迴轉時船體周圍流場和流體力的面元方法等。
(4)研製了非接觸式六自由度運動測量系統,該系統通過了國家教育部鑑定,2000年獲上海市優秀髮明選拔賽一等獎。

獲獎記錄

獲1996年中船總科技進步二等獎和1997年中船總科技進步二等獎。
全國海洋科技先進工作者(國家海洋局,科學技術部,2006年)
上海市優秀學科帶頭人(上海市科委,2007)
上海市科技進步一等獎(排名第一,2011)
Research collaboration awards (by UWA, 2016)

科研項目

主持的基金項目
[1]. 畸形波的動力學機理及其對深海平台強非線性作用研究。國家自然科學基金重點項目51239007
[2]. 新型單點系泊式潮流能裝置耦合動力性能研究。國家自然科學基金面上項目51679137
[3]. 深海SPAR平台浮力罐及垂盪板性能與最佳化。國家自然科學基金面上項目50979057
[4]. FPSO甲板上浪研究。國家自然科學基金面上項目50579034
[5]. 深海平台的動力特性研究。國家自然科學基金面上項目50323004

代表性論文及專著

英文期刊論文
[1] Tian X., Xiao L., Zhang X., Yang J.*, Tao L., Yang D. Flow around an oscillating circular disk at low to moderate Reynolds numbers. Journal of Fluid Mechanics (2016, in press). (SCI, A類).
[2] Guo, X., Lu, H., Yang, J., Peng, T., 2017. Resonant water motions within a recessing type moonpool in a drilling vessel. Ocean Engineering 129, 228-239.(SCI, A類)
[3] Deng, Y., Yang, J., Tian, X., Li, X., Xiao, L., 2016. An experimental study on deterministic freak waves: Generation, propagation and local energy. Ocean Engineering 118, 83-92. (SCI, A類)
[4] Deng, Y., Yang, J., Zhao, W., Li, X., Xiao, L., 2016. Freak wave forces on a vertical cylinder. Coastal Engineering 114, 9-18.(SCI, A類)
[5] Deng, Y., Yang, J., Zhao, W., Xiao, L., Li, X., 2016. Surge motion of a semi-submersible in freak waves. Ships and Offshore Structures, 1-9.(SCI)
[6] Liu, L., Yang, J., Tian, X., Lu, H., Li, C., Yuan, H., 2016. Experimental investigation on the hydrodynamic performance of a quay moored jackup. Ships and Offshore Structures, 1-11.(SCI)
[7] Lu, W., Yang, J., Fu, S., 2016. Numerical study of the generation and evolution of breather-type rogue waves. Ships and Offshore Structures, 1-10.(SCI)
[8] Lu, W., Yang, J., Tao, L., 2016. Numerical study of the energy structure of super rogue waves. Ocean Engineering 113, 295-307.(SCI, A類)
[9] Lu, W., Yang, J., Tian, X., 2016. Fourth-order split-step pseudo-spectral method for the modified nonlinear Schrödinger equation. Ships and Offshore Structures, 1-9.(SCI)
[10] Lu, W., Yang, J., Tian, X., 2016. Fourth-order split-step pseudo-spectral method for the modified nonlinear Schrödinger equation. Ships and Offshore Structures, 1-9.(SCI)
[11] Tian, X., Ong, M.C., Yang, J., Myrhaug, D., 2016. Large-eddy simulations of flow normal to a circular disk at Re= 1.5× 105. Computers & Fluids 140, 422-434. (SCI, B類)
[12] Tian, X., Tao, L., Li, X., Yang, J., 2016. Hydrodynamic coefficients of oscillating flat plates at 0.15≤ KC≤ 3.15. Journal of Marine Science and Technology, 1-13. (SCI, B類)
[13] Wang, L., Yang, J., He, H., Xu, S., Su, T.-C., 2016. Numerical and Experimental Study on the Influence of the Set Point on the Operation of a Thruster-Assisted Position Mooring System. International Journal of Offshore and Polar Engineering 26 (04), 423-432. (SCI, B類)
[14] Xiao, L., Yang, J., Peng, T., 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 307, 203-224.(SCI, A類)
[15] Xiong, L., Yang, J., Zhao, W., 2016. Dynamics of a taut mooring line accounting for the embedded anchor chains. Ocean Engineering 121, 403-413.(SCI, A類)
[16] Yang, J., Lu, W., 2016. Numerical study on the generation and evolution of the super-rogue waves. Journal of Ocean Engineering and Science 1 (1), 1-10.(EI)
[17] Zhang, X., Yang, J., Zhao, W., Xiao, L., 2016. Effects of wave excitation force prediction deviations on the discrete control performance of an oscillating wave energy converter. Ships and Offshore Structures 11 (4), 351-368.(SCI)
[18] Zhao, Y., Yang, J., He, Y., Gu, M., 2016. Dynamic response analysis of a multi-column tension-leg-type floating wind turbine under combined wind and wave loading. Journal of Shanghai Jiaotong University (Science) 21, 103-111.(EI)
[19] Deng, Y., Yang, J., Zhao, W., Xiao, L., and Li, X. An efficient focusing model of freak wave generation considering wave reflection effects. Ocean Engineering, 2015, 105: 125-135. (SCI, A類)
[20] Deng, Y., Yang, J., Tian, X., Li, X., 2015. Experimental investigation on rogue waves and their impacts on a vertical cylinder using the Peregrine breather model. Ships and Offshore Structures, 1-9.(SCI)
[21] Gao, N., Yang, J., Zhao, W., Li, X., 2015. Numerical simulation of deterministic freak wave sequences and wave-structure interaction. Ships and Offshore Structures, 1-16.(SCI)
[22] Lu, H., Li, Y., Li, X., Yang, J., Serikawa, S., 2015. Using near infrared light for deep sea mining observation systems, Applied Optics and Photonics China (AOPC2015). International Society for Optics and Photonics, pp. 967503-967503-967509.(EI)
[23] Wenyue Lu; Jianmin Yang*; Longbin Tao. Numerical study on the enery structure of the super-rogue waves. Ocean Engineering.(SCI, A類)
[24] Xiao, L., Yang, J., Tao, L., 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.(SCI, A類)
[25] Xiong, H., Yang, J., Tian, X., 2015. An experimental study on the inline wave force on a truncated vertical cylinder. Ships and Offshore Structures, 1-16.(SCI)
[26] Xiong, L., Lu, H., Yang, J., Zhao, W., 2015. Motion responses of a moored barge in shallow water. Ocean Engineering 97, 207-217.(SCI, A類)
[27] Zhang, X., Yang, J., 2015. Power capture performance of an oscillating-body WEC with nonlinear snap through PTO systems in irregular waves. Applied Ocean Research 52, 261-273. (SCI, B類)
[28] Lingzhi Xiong; Haining Lu*; Jianmin Yang; Wenhua Zhao. Motion response of a moored barge in shallow water . Ocean Engineering, 42078, 97: 207-217.(SCI, A類)
[29] Tian X, Ong M C, Yang J, et al. Large-eddy simulation of the flow normal to a flat plate including corner effects at a high Reynolds number. Journal of Fluids and Structures. (SCI, B類)
[30] Yang J. Tian X. and Li X. Hydrodynamic characteristics of a circular disk under steady in-plane current conditions. Ocean Engineering. (SCI, A類)
[31] Zhao W H, Yang J M, Hu Z Q, Tao L B. Coupling between Roll Motions of an FLNG Vessel and Internal Sloshing. Journal of Offshore Mechanics and Arctic Engineering. (SCI, B類)
[32] Xu Xin, Yang Jian-min, LI Xin, and XU Liang-yu. Hydrodynamic performance study of two side-by-side barges. Ship and offshore structure. (SCI)
[33] Zhang Hui, Yang Jian-min, Xiao Long-fei. Damping ratio identification using a Continuous Wavelet Transform to Vortex-Induced Motion of a Truss Spar. Ships and Offshore Structures. (SCI)
[34] Zhang Hui, Yang Jian-min, Xiao Long-fei, Lu Hai-ning. Hydrodynamic performance of flexible risers subjected to vortex-induced vibrations. Journal of Hydrodynamics, 2013,25(1):156-164. (SCI)
[35] Zhao W H, Yang J M, Hu Z Q, Xie B. Hydrodynamics of an FLNG System in Tandem Offloading Operation [J]. Ocean Engineering, 2013, Vol.57, pp.150-162. (SCI, A類)
[36] Zhao W H, Yang J M, Hu Z Q. Effects of Sloshing on the Global Motion Responses of FLNG [J]. Ships and Offshore Structures, 2013, Vol. 8, No.2, pp.111-122. (SCI)
[37] Tian X., Ong M.C., Yang J. and Myrhaug D. Unsteady RANS simulations of flow around rectangular cylinders with different aspect ratios. Ocean Engineering, 58(2013), pp.208-216. (SCI, A類).
[38] Zhao W H, Yang J M, Hu Z Q, Xiao L F, Peng T. Experimental and Numerical Investigation of the Roll Motion Behavior of a Floating Liquefied Natural Gas System [J]. Science China, 2013, Vol.55, No. 3: pp.629-644. (SCI)
[39] Zhao W H, Yang J M, Hu Z Q, Tao L B. Prediction of Hydrodynamic Performance of an FLNG System in Side by Side Offloading Operation [J]. Journal of Fluids and Structures, 2013, (SCI, B類)
[40] Zhao W H, Yang J M, Hu Z Q, Wei Y F. Numerical Investigation on the Hydrodynamic Difference between Internal and External Turret-Moored FLNG [J]. Journal of Shanghai Jiaotong University, 2013, Vol. 18, No. 5, pp. 590-597. (EI)
[41] Zhao W H, Yang J M, Hu Z Q, XIao L F, Tao L B. Coupled Hydrodynamics of FLNG Vessel and Internal Sloshing Flows. Ocean Engineering, 2013. (SCI, A類)
[42] Zhao W H, Yang J M, Hu Z Q, Tao L B. 2013 Coupled Analysis of Nonlinear Sloshing and Ship Motions. Applied Ocean Research, (SCI, B類)
[43] Zhao W H, Yang J M, Hu Z Q, Xiao L F. Experimental Investigation of the Effects of Inner-Tank Sloshing on Hydrodynamics of an FLNG System. Journal of Hydroydnamics (Series B). (SCI)
[44] Zhao W H, Yang J M, Hu Z Q, Xiao L F. Hydrodynamic Interaction between FLNG Vessel and LNG Carrier in Side by Side Configuration. Journal of Hydroydnamics (Series B). (SCI)
[45] Wei Y F, Yang J M, Chen G, Hu Z Q. Experimental Study on the Hydrodynamic Performance of FDPSO and Sheltered Riser Vessel. Ships and offshore structure. (SCI)
[46] Zhang Hui, Yang Jian-min, Xiao Long-fei, Lu Hai-ning. Study on added mass coefficient and oscillation frequency for a Truss Spar subjected to Vortex-Induced Motions. Ships and Offshore Structures. (SCI)
[47] Zhao W H, Yang J M, Hu Z Q, Wei Y F. Full-Scale Measurement Investigation of the Hydrodynamics of a Turret-Moored FPSO in a Typhoon and Deduction of its Mooring Loads. Ships and Offshore Structures. (SCI)
[48] Zhao W.H., Yang J.M., Hu Z.Q., Xiao L.F., Peng T. Investigation on the Hydrodynamic Performance of an Ultra Deep Turret-Moored FLNG System. China Ocean Engineering. (SCI, B類)
[49] Gu Jiayang, Yang Jian-min, Lu Haining. Studies of TLP dynamic response under wind, waves and current. China ocean engineering. (SCI, B類)
[50] Gu Jiayang, Yang Jian-min, Lu Haining. Comprehensive study on tendon tension of TLP considering wind, wave and current. Journal of ship mechanics. (EI)
[51] Shan Tie-bing, Yang Jian-min, Li Xin, Xiao Long-fei. Experimental Investigation on Wave Run-up Characteristics along Columns and Air Gap Response of Semi-submersible. Journal of Hydrodynamics. (SCI)
[52] Zhao W H, Yang J M, Hu Z Q, Wei Y F. Recent Developments on the Hydrodynamics of Floating Liquid Natural Gas (FLNG). Ocean Engineering.(SCI, A類)
[53] Wei Y F, Yang J M, Chen G, Hu Z Q. The effect of axial stiffness of mooring lines on the horizontal motion of FDPSO. Science China G.(SCI)
[54] Zhao W H, Yang J M, Hu Z Q, Wei Y F. Investigation on Sloshing Effects of Tank liquid on the FLNG Vessel Responses in Frequency Domain. Journal of Ship Mechanics. (EI)
[55] Xiufeng Liang, Jianmin Yang, Jun li, Xin li. A numerical study on local characteristics of predetermined irregular wave trains. Ocean Engineering. (SCI, A類)
[56] Su Yi-Hua; Yang Jian-Min; Xiao Long-Fei. Hybrid verification of a deepwater Cell-Truss Spar. China Ocean Engineering. (SCI, B類)
[57] Zhang Huo Ming, Sun Zhi Lin, Yang Jian Min, Gao Ming Zheng. Investigation on optimization design of equivalent water depth truncated mooring system. Science in China, Series G: Physics, Mechanics and Astronomy. (SCI)
[58] Xiao Long-Fei, Yang Jian-Min, Peng Tao, Li Jun. A meshless numerical wave tank for simulation of nonlinear irregular waves in shallow water. International Journal for Numerical Methods in Fluids. (SCI)
[59] Xiao Long-Fei, Yang Jian-Min, Yang Li-Jun, Li Xin. Theoretical model and dynamic analysis of soft yoke mooring system. China Ocean Engineering.(SCI, B類)
[60] Zhang Fan, Yang Jian-min, Li Run-pei, Chen Gang. Coupling effects for cell-truss spar platform: comparison of frequency- and time-domain analyses with model tests. Journal of Hydrodynamics.(SCI)
[61] Wang Ying, Yang Jian-min, Hu Zhi-qiang, Xiao Long-fei. Theoretical Research on Hydrodynamics of a Geometric Spar in Frequency- and Time-Domain. Journal of Hydrodynamics.(SCI)
[62] Zhang, Fan, Yang Jian-Min, Li Run-Pei, Chen Gang. Numerical and experimental research on the global performances of cell-truss spar platform. China Ocean Engineering. (SCI, B類)
[63] Zhang Huo-Ming, Yang Jian-Min, Xiao Long-Fei. Hybrid model testing technique for deep-sea platforms based on equivalent water depth truncation. China Ocean Engineering. (SCI, B類)
[64] Xiao Long-Fei,Yang Jian-Min,Li Xin. Shallow water effects on surge motion and load of soft yoke moored FPSO. China Ocean Engineering. (SCI, B類)
[65] Zhang Fan, Yang Jian-min, LI Run-pei, Chen Gang. Numerical investigation on the hydrodynamic performances of a new spar concept. Journal of Hydrodynamics. (SCI)
[66] Hai-ning LU, Yang Jian-min, Peng Tao, Chen Gang. Numerical and experimental research on current generation in deepwater offshore basin. Journal of Hydrodynamics. (SCI)
[67] Xiufeng Liang,Jianmin Yang, Chi Yang, Haidong Lu, Rainald Löhner. Numerical and Experimental Study of Green Water on a Moving FPSO. FAST2007. (EI)
英文會議論文
[1] Deng, Y., Yang, J., Li, X., Tian, X., 2016. An Experimental Investigation of Freak Wave Forces on Vertical Cylinders, The 26th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[2] Guo, X., Lu, H., Yang, J., Peng, T., 2016. Study on Hydrodynamic Performances of a Deep-Water Drillship and Water Motions inside Its Rectangular Moonpool, The 26th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[3] Lin, Z., Yang, J., Tao, L., Sayer, P., Ning, D., 2016. Time-Domain Analysis of Substructure of a Floating Offshore Wind Turbine in Waves, ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering.
[4] Lu, W., Yang, J., Li, X., 2016. Evolution of the rogue waves under the influence of the wave-current interference, The 26th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[5] Xiong, L., Zhao, W., Yang, J., White, D., 2016. Numerical Simulations of the Load on an Embedded Anchor from a Taut Mooring System, The 26th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[6] Deng, Y., Yang, J., Li, X., Xiao, L., 2015. Experimental and Numerical Investigation on Kinematics of Freak Waves, The Twenty-fifth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[7] Lu, W., Yang, J., Tao, L., Lu, H., Tian, X., Li, J., 2015. Current Effects on the Generation and Evolution of the Peregrine Breather-Type Rogue Wave, ASME 2015 34th International Conference on Ocean, Offshore and Arctic Engineering.
[8] DENG, Y., YANG, J., XIAO, L., TIAN, X., LI, J., 2015. An Experimental Investigation on the Motion and Dynamic Responses of A Semisubmersible in Freak Waves. 第十七屆中國海洋 (岸) 工程學術討論會論文集 (上).
[9] Gao, N., Yang, J., Li, X., Zhao, W., 2015. Wave Forces on Horizontal Cylinder due to Nonlinear Focused Wave Groups, The Twenty-fifth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[10] Liu, L., Yuan, H., Yang, J., Tian, X., Li, C., Lu, H., 2015. A Wave Basin Model Test Study for a Jackup Moored on the Dock, The Twenty-fifth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers.
[11] Zhao W H, Yang J M, Tao L B, White D. Research on the Coupling between Ship Motions and Sloshing. 33rd International Conference of Offshore Mechanics and Arctic Engineering (OMAE2014).
[12] Tian X., Yang J., Li X. and Peng T. Experimental investigations on the hydrodynamic characteristics of heave plate. Proceedings of the ASME 2013 32nd International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2013. (EI)
[13] Tian X., Yang J., Li J. and Xiao L. Direct numerical simulations on the uniform in-plane flow around an oscillating circular disk. The 23rd International Offshore and Polar Engineering Conference, ISOPE 2013. (EI,)
[14] Xin Xu, Jianmin Yang, Xin Li, Haining Lu. An experimental and numerical study on seakeeping of T-shaped barge in topside transportation. Proceedings of the 23nd (2013) International Offshore and Polar Engineering Conference, June, 2013, Alaska, USA.
[15] Xin Xu, Jianmin Yang, Xin Li, Haining Lu. Wave Drift Forces on Three Barges Arranged Side by Side in Floatover Installation. Proceedings of the ASME 32th International Conference on Offshore Mechanics and Arctic Engineering June 9-14, 2013, Nantes, France.
[16] Zhang Hui, Yang Jian-min, Xiao Long-fei, Lu Hai-ning. Experimental investigation on drag coefficient for a Truss Spar subjected to Vortex Induced Motions. The 11st National Conference on Hydrodynamics.
[17] Shan Tie-bing, LI Xin, Chen Gang, Xiao Long-fei, Lu Haining, Li Jun. Leg spacing effect on wave run-up and non-Linear wave disturbance along semi-Submersible columns. The 22th International Offshore and Polar Engineering Conference.
[18] Xin Xu, Jianmin Yang, Xin Li, Longfei Xiao. A Study of Floatover Installation onto Jacket WithTwo Barges. Proceedings of the 17th Offshore Symposium, Texas Section of the Society of Naval Architects and Marine Engineers.
[19] Tian X., Ong M.C., Yang J., Myrhaug D. and Chen G. Three-dimensional effects of the flow normal to a flat plate at a high Reynolds number. Proceedings of the ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2012.
[20] Zhang Hui, Yang Jian-min, Peng Tao, Lu Hai-ning. Experimental investigation on added mass coefficient of a Truss Spar subjected to Vortex-Induced Motions. OMAE2012.
[21] Xin Xu, Xin Li, Haining Lu, Longfei Xiao, Jianmin Yang. An experimental and numerical studyon motions of three adjacent barges in floatover installation. Proceedings of the 22nd (2012) International Offshore and Polar Engineering Conference.
[22] Zhang Hui, Xiao Long-fei, Yang Li-jun, Lu Hai-ning. Experimental investigation on lift coefficient for a Truss Spar subjected to Vortex Induced Motions. ISOPE2012.
[23] Tian X., Ong M.C., Yang J. and Myrhaug D. Numerical simulation of flow around rectangular cylinders with different aspect ratios. Proceedings of MekIT.11, 6th National Conference on Computational Mechanics.
[24] Zhang Hui, Yang Jian-min, Xiao Long-fei, Lu Hai-ning. Experimental investigation on Vortex-Induced Motions of a Truss Spar in deepwater offshore basin. IWSH2011-049.
[25] Zhao W H, Yang J M, Hu Z Q, Peng T. Numerical and Experimental Investigation on Hydrodynamic Characteristics of FLNG with Account of the Inner-Tank Sloshing. In: Proceedings of the 30th International Conference of Offshore Mechanics and Arctic Engineering, OMAE2011.
[26] Tian X., Ong M.C., Yang J. and Myrhaug D. Two-dimensional numerical simulation of flow around rectangular structures with different aspect ratios. Proceedings of the ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2011.
[27] Shan Tie-bing, Yang Jian-min, Li Xin, Lu Hai-ning, Xiao Long-fei. Wave run-up characteristics and non-linear wave disturbance around a semi-submersible column. IWSH2011.
[28] Xin Xu, Jianmin Yang, Xin Li. The Experimental and Numerical Research on Coupled Motion in Two Barges Floatover Installation. Proceedings of the Seventh International Workshop on Ship Hydrodynamics.
[29] Wei Y F, Yang J M, Chen G, Hu Z Q. The Research of Moonpool Size Effect on the Hydrodynamic Performance of FDPSO. OMAE.
[30] Zhang Hui, Xiao Long-fei, Lu Hai-ning, Li Xin. Experimental investigation on Vortex Induced Motions of Truss Spars. ISOPE2011-DCW-03.
[31] Zhao W H, Yang J M, Hu Z Q, Wei Y F. Hydrodynamic Verification on the Motion Characteristic of FPSO Based on the Full Scale Measurement Data Features of Current and Wind. 29th International Conference of Offshore Mechanics and Arctic Engineering (OMAE2010).
[32] Wei Y F, Hu Z Q, Chen G, Yang J M. Numerical and model test Investigation on the Motion Characteristic of FDPSO and the Sheltered Riser Vessel. 29th International Conference of Offshore Mechanics and Arctic Engineering (OMAE2010).
[33] Tiebing Shan, Haining Lu, Jianmin Yang, Runpei Li. Numerical, Experimental and Full-scaled Investigation on the Current Generation System of the New Deepwater Offshore Basin. 29th International Conference of Offshore Mechanics and Arctic Engineering (OMAE2010).
[34] Wang Ying, Yang Jian-min, Peng Tao, Li Xin. Model Test Study on Vortex-Induced Motions of a Floating Cylinder. 28th International Conference on Ocean, Offshore and Arctic Engineering.
[35] Xiufeng Liang,Jianmin Yang, Chi Yang and Pierre Ferrant. Numerical study of green water on a freely moving object. 28th International Conference on Ocean, Offshore and Arctic Engineering.
[36] Haining Lu, Jianmin Yang, Runpei Li. Features of Current Generating System and the Application in New Deepwater Offshore Basin. OMAE2008-57120.
[37] Zhiqiang Hu, Weicheng Cui, Jianmin Yang. Multidisciplinary Design Optimization: A New Way to Bring Softer Bows. OMAE2008-57145.
[38] Wang Ying, Yang Jian-min, Li Xin. CFD Analysis of Unsteady Flows around a New Cell-Truss Spar and the Corresponding Vortex-Induced Motions. OMAE2008-5719. 2008.6.15
[39] Zhang Fan,Yang Jian-Min, Li Run-Pei, Chen Gang. Numerical study on the hydrodynamic behavior of a new cell-truss spar platform. Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering – OMAE.
[40] Xiao Longfei, Yang Jianmin and Hu Zhiqiang. Low Frequency Wave Forces and Wave Induced Motions of a FPSO in Shallow Water. Proc. Of 26th Int. Conf. on Offshore Mechanics and Arctic Engineering, OMAE2007-29047.
[41] Su Yihua, Yang Jianmin, Xiao Longfei and Chen Gang. Hydrodynamic model test verification of a Cell Truss SPAR by using hybrid model testing technique. Proc. Of 26th Int. Conf. on Offshore Mechanics and Arctic Engineering, OMAE2007-29120.
[42] Zhiqiang Hu,Weicheng Cui, Longfei Xiao, Jianmin Yang. Research on Collision Mechanism for a Ship Colliding With a Spar Platform. Proc. Of 26th Int. Conf. on Offshore Mechanics and Arctic Engineering, OMAE2007-29085.
[43] Haining Lu, Jianmin Yang, Tao Peng. Hydraulic Performances of Current Generation System in the New Deepwater Offshore Basin. Proc. Of 26th Int. Conf. on Offshore Mechanics and Arctic Engineering, OMAE2007-29087.
中文論文
[1] 單鐵兵, 楊建民, 李欣, 肖龍飛, 2016. 波浪入射角度對立柱周圍波面擾動特性的影響研究. 船舶力學 20 (10), 1234-1243.
[2] 鄧燕飛, 楊建民, 李欣, 肖龍飛, 2016. 波浪水池中畸形波生成的研究綜述. 船舶力學 20 (8), 1059-1070.
[3] 鄧燕飛, 楊建民, 肖龍飛, 李欣, 2016. 極端波浪與海洋結構物的強非線性作用研究綜述. 船舶力學 20 (7), 917-928.
[4] 王安慶, 黃小平, 楊建民, 2016. 鋼質懸鏈線立管與海床土體相互作用的數值模擬. 船舶力學 20 (1), 168-175.
[5] 谷家揚, 陶延武, 楊建民, 肖龍飛, 2015. 深水張力腿平台非線性渦激特性及水動力性能研究. 船舶力學 (4), 369-380.
[6] 谷家揚, 楊建民, 2015. 平台運動影響下張力腿渦激振動特性研究. 船舶力學 (6), 677-689.
[7] 張蕙, 楊建民, 肖龍飛, 呂海寧, 2015. 基於小波分析的Spar平台阻尼係數研究. 船舶力學 (9), 1085-1096.
[8] 單鐵兵, 楊建民, 李欣, 肖龍飛, 2014. 水流對立柱周圍波浪爬升特性的影響. 上海交通大學學報 48 (1), 116-124,131.
[9] 谷家揚, 吳介, 楊建民, 2014. 衝擊載荷作用下張力腿平台瞬態動力回響及系泊特性研究. 中國造船 (4), 48-58.
[10] 谷家揚, 吳介, 楊建民, 2014. 新型深水多立柱 FDPSO 渦激運動研究進展. 江蘇科技大學學報(自然科學版) (5), 415-422.
[11] 谷家揚, 楊建民, 肖龍飛, 2014. 基於DES方法的張力腿平台主體結構水動力特性研究, 2014年船舶與海洋結構學術會議暨中國鋼結構協會海洋鋼結構分會第七屆理事會第三次會議論文集, 威海, pp. 12-22.
[12] 谷家揚, 楊建民, 肖龍飛, 2014. 兩種典型立柱截面渦激運動的分析研究. 船舶力學 (10), 1184-1194.
[13] 徐亮瑜, 楊建民, 李欣, 許鑫, 2014. 小間距的旁靠駁船間水動力干擾數值與試驗研究. 船舶力學 (3), 248-261.
[14] 許鑫, 李欣, 楊建民, 2014. 半潛式起重船浮吊作業的數值模擬與模型試驗. 船舶力學 (7), 799-808.
[15] 單鐵兵, 楊建民, 李欣, 肖龍飛, 2013. 一種適用於陡波條件下研究半潛平台周圍波浪非線性爬升效應的計算方法. 船舶力學 (4), 346-359.
[16] 沈玉稿, 楊建民, 李欣, 彭濤, 2013. 風機基礎所受波浪抨擊力的數值模擬和實驗研究. 船舶力學 (9), 1009-1020.
[17] 谷家揚, 呂海寧, 楊建民, 2013. 張力腿平台在隨機波浪中的耦合運動回響研究. 船舶力學 (8), 888-900.
[18] 田新亮, 楊建民, 李欣, 沈玉稿, 2013. 雷諾數對垂盪阻尼板水動力特性影響的研究. 船舶力學 (12), 1392-1402.
[19] 許鑫, 楊建民, 李欣, 呂海寧, 2013. 浮托駁船系泊定位的數值模擬與模型試驗研究. 水動力學研究與進展A輯 28 (4), 471-481.
[20] 許鑫, 楊建民, 李欣, 呂海寧, 2013. 組塊運輸中的T型駁船水動力性能研究. 船舶力學 (12), 1426-1438.
[21] 趙文華, 楊建民, 胡志強, 謝彬, 喻西崇, 2013. 大型浮式液化天然氣開發系統關鍵技術現狀及發展趨勢. 中國海上油氣 25 (1), 82-86,90.
[22] 谷家揚, 渠基順, 楊建民, 2012. 方柱與圓柱渦激運動的比較分析, 第十一屆全國水動力學學術會議暨第二十四屆全國水動力學研討會並周培源誕辰110周年紀念大會論文集, 無錫, pp. 132-139.
[23] 谷家揚, 楊建民, 呂海寧, 2012. 多因素下張力腿平台耦合動力回響特性研究. 中國造船 (3), 129-139.
[24] 程正順, 胡志強, 楊建民, 2012. 半潛式平台結構抗撞性能研究. 振動與衝擊 31 (4), 38-43.
[25] 谷家揚, 楊建民, 呂海寧, 2012. 考慮風浪流的TLP張力腿張力回響規律分析. 船舶力學 16 (9), 1041-1055.
[26] 徐亮瑜, 楊建民, 李欣, 2012. 雙駁船系統水動力性能及波面升高研究, 2012年度海洋工程學術會議論文集, 廈門, pp. 217-226.
[27] 魏躍峰, 楊建民, 陳剛, 胡志強, 2012. 多點系泊定位FDPSO船體水動力性能數值模擬和模型試驗研究. 船舶力學 16 (6), 603-616.
[28] 張磊, 楊建民, 呂海寧, 肖龍飛, 2012. 西非深水浮筒和穿梭油輪水動力性能分析. 海洋工程 30 (3), 9-17.
[29] 張磊, 楊建民, 彭濤, 呂海寧, 張威, 2012. 西非多點系泊FPSO波頻運動預報研究. 中國海上油氣 24 (2), 72-76.
[30] 趙文華, 胡志強, 楊建民, 李悅喜, 謝協民, 2011. FPSO系泊系統載荷計算與分析——基於南海"奮進號"FPSO運動特性實船測量結果. 中國海上油氣 23 (2), 116-121,139.
[31] 趙文華, 胡志強, 楊建民, 魏躍峰, 2011. 頻域範圍內液艙晃蕩對FLNG運動影響的研究. 船舶力學 15 (3), 227-237.
[32] 單鐵兵, 楊建民, 李欣, 2011. 半潛式平台氣隙性能的研究進展. 中國海洋平台 26 (2), 1-7.
[33] 梁修鋒, 楊建民, 李俊, 李欣, 2010. 並行計算求解運動船體上的甲板上浪問題. 船舶力學 14 (10), 1084-1093.
[34] 梁修鋒, 楊建民, 李俊, 楊馳, 李欣, 2010. 甲板上浪過程中水流運動規律數值研究. 海洋工程 28 (2), 29-36.
[35] 梁修鋒, 楊建民, 李欣, 李俊, 2010. 不規則波浪的數值模擬. 船舶力學 14 (5), 481-486.
[36] 饒志標, 楊建民, 付世曉, 李潤培, 2010. 剪下流下鋼懸鏈線立管渦激振動回響研究. 振動與衝擊 29 (10), 4-8,98.
[37] 田新亮, 楊建民, 呂海寧, 2010. 海洋工程水動力學模型試驗數據處理程式開發. 實驗室研究與探索 29 (6), 5-8,17.
[38] 蘇一華, 楊建民, 肖龍飛, 2010. 水深截斷系泊纜動力特性試驗研究. 船舶力學 14 (9), 967-976.
[39] 肖龍飛, 楊建民, 胡志強, 2010. 極淺水單點系泊FPSO低頻回響分析. 船舶力學 14 (4), 372-378.
[40] 李俊, 陳剛, 楊建民, 2009. 深水畸形波的實驗室物理模擬. 中國海洋平台 24 (3), 22-25.
[41] 蘇一華, 楊建民, 肖龍飛, 2009. 水深截斷系泊纜阻尼研究. 中國海洋平台 24 (2), 23-28,48.
[42] 郭彬, 肖龍飛, 楊建民, 2009. 淺水非共線海況下FPSO運動與上浪分析. 中國海洋平台 24 (6), 20-24.
[43] 蘇一華, 楊建民, 肖龍飛, 李欣, 2008. 基於靜力相似的水深截斷系泊系統多目標最佳化設計. 中國海洋平台 23 (1), 14-19.
[44] 童波, 楊建民, 李欣, 2008. 深水半潛平台懸鏈線式系泊系統耦合動力分析. 中國海洋平台 23 (6), 1-7.
[45] 胡志強, 崔維成, 楊建民, 2008. 基於模型試驗和數值模擬方法的深吃水立柱式平台碰撞特性. 上海交通大學學報 42 (6), 939-944.
[46] 王穎, 楊建民, 李潤培, 李欣, 2008. 剪下流中Cell-Truss Spar平台渦激運動的CFD計算與模型試驗研究. 中國造船 49 (z2), 251-259.
[47] 王穎, 楊建民, 肖龍飛, 胡志強, 2008. 內置集成浮力罐的幾何形Spar平台運動性能數值模擬. 上海交通大學學報 42 (6), 924-928.
[48] 楊建民, 2008. 25thITTC海洋工程委員會工作報告, 2008年船舶水動力學學術會議暨中國船舶學術界進入ITTC30周年紀念會論文集, 杭州, pp. 349-352.
[49] 楊建民, 喻渝, 2008. 淺埋大斷面黃土隧道初期支護研究. 現代隧道技術 45 (6), 16-21,45.
[50] 張帆, 楊建民, 李潤培, 柳存根, 2008. 多柱桁架式立柱平台概念設計. 上海造船 (1), 18-20.
[51] 蘇一華, 楊建民, 肖龍飛, 2007. 深海單柱式平台及其系泊系統的截斷水深模型試驗. 上海交通大學學報 41 (9), 1454-1459,1464.
[52] 王穎, 楊建民, 肖龍飛, 2007. Spar平台與內置浮力罐非線性耦合運動研究綜述, 中國造船工程學會2007年船舶力學學術會議暨《船舶力學》創刊十周年紀念學術會議論文集, 銀川, pp. 535-544.
[53] 張帆, 楊建民, 李潤培, 柳存根, 2007. CAE技術在Cell-Truss Spar平台概念設計中的套用, 2007年上海市船舶CAE技術研討會論文集, 江蘇無錫, pp. 35-40.
[54] 張火明, 楊建民, 肖龍飛, 2007. 考慮靜力特性相似的等效水深截斷系統的最佳化設計. 中國造船 48 (2), 25-36.
[55] 張威, 楊建民, 胡志強, 肖龍飛, 2007. 深水半潛式平台模型試驗與數值分析. 上海交通大學學報 41 (9), 1429-1434.
[56] 李俊, 楊建民, 梁修峰, 姚美旺, 2007. FPSO甲板上浪試驗研究. 中國海洋平台 22 (5), 10-13.
[57] 梁修鋒, 楊建民, 李欣, 于洋, 2007. FPSO甲板上浪的數值模擬. 水動力學研究與進展A輯 22 (2), 229-236.
[58] 李欣, 王磊, 楊建民, 2006. 淺水浮式生產儲油系統二階波浪慢漂力數值計算. 上海交通大學學報 40 (6), 997-999,1009.
[59] 張威, 2006. 深海半潛式鑽井平台水動力性能分析. 上海交通大學.
[60] 王磊, 李欣, 楊建民, 2006. 淺水浮式生產儲油系統(FPSO)二階定常力數值仿真研究. 海洋工程 24 (1), 9-13.
[61] 王磊, 王先福, 楊建民, 2006. 動力定位船舶二階低頻慢漂力模型試驗研究. 海洋工程 24 (3), 1-5.
[62] 肖龍飛, 楊建民, 2006. FPSO水動力研究與進展. 海洋工程 24 (4), 116-123,128.
[63] 肖龍飛, 楊建民, 范模, 彭濤, 2006. 160kDWT FPSO在極淺水中運動安全性研究. 船舶力學 10 (1), 7-14.
[64] 謝永和, 李潤培, 楊建民, 2006. 水深對超大型FPSO水彈性回響的影響. 上海交通大學學報 40 (6), 993-996.
[65] 張火明, 楊建民, 肖龍飛, 2006. 基於混合模型試驗技術的中等水深FPSO系統水動力性能研究. 船舶力學 10 (5), 1-10.
[66] 李欣, 楊建民, 肖龍飛, 2005. FPSO軟剛臂單點系泊系統動力分析. 中國造船 46 (z1), 141-148.
[67] 呂海寧, 楊建民, 2005. FPSO甲板上浪研究現狀. 海洋工程 23 (3), 119-124.
[68] 呂海寧, 楊建民, 彭濤, 2005. 基於CFD的海洋深水試驗池造流系統數值模擬, 中國造船, 北京, pp. 48-54.
[69] 王磊, 王先福, 楊建民, 2005. 動力定位船舶二階低頻慢漂力模型試驗研究, 第七屆全國水動力學學術會議暨第十九屆全國水動力學研討會論文集(下冊), 哈爾濱, pp. 886-893.
[70] 張火明, 楊建民, 肖龍飛, 2005. 內轉塔式系泊FPSO甲板上浪的時域模擬. 船舶 (3), 11-16.
[71] 李俊, 楊建民, 肖龍飛, 2005. 轉塔位置對FPSO水動力性能的影響. 海洋工程 23 (4), 9-14.
[72] 張帆, 楊建民, 李潤培, 2005. 一種新型Spar平台概念的試驗研究. 中國造船 46 (z1), 293-298.
[73] 李欣, 楊建民, 范模, 2004. 渤海油田淺水軟剛臂系泊FPSO觸底分析. 海洋工程 22 (2), 51-57.
[74] 李欣, 楊建民, 肖龍飛, 2004. 淺水FPSO船型主尺度對運動和觸底的研究, 中國造船(2004年度海洋工程學術會議論文集)2004.vol.45 增刊, 長沙, pp. 160-167.
[75] 呂海寧, 楊建民, 姚美旺, 2004. 箱式超大型浮體在非均勻海洋環境下的水彈性試驗. 海洋工程 22 (1), 1-8.
[76] 呂海寧, 楊建民, 張承懿, 2004. 半潛式超大型浮體的多剛體試驗研究. 船舶工程 26 (5), 33-37.
[77] 肖龍飛, 楊建民, 李欣, 彭濤, 2004. 淺水深對160kDWT FPSO水動力係數的影響. 水動力學研究與進展A輯 19 (3), 257-263.
[78] 肖龍飛, 楊建民, 張承懿, 姚美旺, 2004. 浮式生產儲油系統的水池模型試驗研究. 船舶工程 26 (6), 18-23.
[79] 張火明, 楊建民, 2004. 基於神經網路的數值預測技術在船舶與海洋工程中的套用研究. 造船技術 (6), 41-45,40.
[80] 楊建民, 張火明, 肖龍飛, 彭濤, 2003. 一種新型深海海洋平台--幾何形Spar和集成浮力桶的試驗研究. 海洋工程 21 (4), 23-28.
[81] 陳國建, 楊建民, 張承懿, 2003. 箱式超大型浮體的水彈性模型試驗. 海洋工程 21 (3), 1-5.
[82] 楊建民, 2002. 深水生產系統研究發展動向, 中國造船工程學會船舶力學學術委員會第五屆全體會議專集, 四川綿陽, pp. 78-84.
[83] 趙志高, 楊建民, 王磊, 程俊勇, 2002. 動力定位系統發展狀況及研究方法. 海洋工程 20 (1), 91-97.
[84] 陳國建, 楊建民, 2002. 超大型浮體試驗研究概述. 上海造船 (2), 22-24.
[85] 程俊勇, 楊建民, 肖龍飛, 趙志高, 2002. 動力定位系統的推力系統設計. 海洋工程 20 (4), 58-62.
[86] 向溢, 楊建民, 譚家華, 張承懿, 2001. 碼頭系泊船舶模型試驗. 海洋工程 19 (2), 45-49.
[87] 肖龍飛, 彭濤, 楊建民, 盛振邦, 2001. 被動式減搖水艙減搖效果的評定. 上海交通大學學報 35 (10), 1552-1556.
[88] 王志軍, 舒志, 李潤培, 楊建民, 2001. 超大型海洋浮式結構物概念設計的關鍵技術問題. 海洋工程 19 (1), 1-6.
[89] 王志軍, 李潤培, 楊建民, 舒志, 2000. 超大型海洋浮式結構物概念設計綜述, 第一屆全國船舶與海洋工程學術會議論文集, 上海, pp. 666-672.
[90] 肖龍飛, 彭濤, 楊建民, 王敏聲, 2000. 被動式減搖水艙減搖效果的評定, 第一屆全國船舶與海洋工程學術會議論文集, 上海, pp. 236-243.
[91] 楊建民, 彭濤, 陳國建, 姚美旺, 2000. 海洋工程試驗中風譜模擬技術的研究, 第一屆全國船舶與海洋工程學術會議論文集, 上海, pp. 250-257.
[92] 楊建民, 肖龍飛, 彭濤, 姚美旺, 2000. 淺水不規則波浪中油輪運動研究. 海洋工程 18 (3), 25-29.
[93] 王磊, 楊建民, 肖龍飛, 王敏聲, 1999. 工程近似方法分析兩階慢漂問題, 第十三屆全國水動力學研討會論語文集, 貴州, p. 45~48.
[94] 楊建民, 顧海粟, 姚美旺, 肖龍飛, 1999. 非接觸式六自由度運動測量與分析方法. 海洋工程 17 (2), 17-21.
[95] 楊建民, 王國強, 1996. 三維機翼分離流的計算方法, (中國造船工程學會船舶力學學術委員會)船舶推進與空泡(暨六屆)學術討論會論文集, 張家界, p. 105~110.
[96] 楊建民, 楊晨俊, 1996. 反應舵在螺旋槳尾流中的水動力性能, (中國造船工程學會船舶力學學術委員會)船舶推進與空泡(暨六屆)學術討論會論文集, 張家界, p. 98~104.

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