Books:
[1] 田新亮, 平板流动特性及其对深海平台垂荡抑制机理的研究, 博士学位论文, 上海交通大学 2014. Xinliang Tian, Research on the hydrodynamics of flat plates and their mechanisms in heave motion suppression of deepwater platforms, Ph.D Thesis, Shanghai Jiao Tong University, 2014.
外文期刊论文:
(一)薄板流体动力学方向:
[1] Gao S., Pan S., Wang H., Tian X.* Shape deformation and drag variation of a coupled rigid-flexible system in a flowing soap film. Physical Review Letters, 125(2020) 034502.
[2] Wu X., Zhang X., Tian X.*, Li X., Lu W. A review on fluid dynamics of flapping foils. Ocean Engineering. Ocean Engineering, 195 (2020) 106712.
[3] Tian X., Xiao, L., Zhang, X., Yang, J.*, Tao, L. and Yang, D. Flow around an oscillating circular disk at low to moderate Reynolds numbers. Journal of Fluid Mechanics, 812 (2017), pp. 1119–1145.
[4] Gao S., Tao L., Tian X.*, Yang J. Flow around an inclined circular disk. Journal of Fluid Mechanics 851 (2018), pp. 687-714.
[5] Tian X., Hu Z., Lu H.*, Yang J. Direct numerical simulations on the flow past an inclined circular disk. Journal of Fluids and Structures, 72(2017), pp. 152-168.
[6] Tian X.*, Ong M.C., Yang J., Myrhaug D. Large-eddy simulation of the flow normal to a flat plate including corner effects at a high Reynolds number. Journal of Fluids and Structures, 49(2014), pp.149-169.
[7] Tian X., Tao L., Li X.* and Yang J. Hydrodynamic coefficients of oscillating flat plates at 0.15≤KC≤3.15. Journal of Marine Science and Technology. 22 (2017), pp.101-113.
[8] Tian X.*, Ong M.C., Yang J., Myrhaug D. Large-eddy simulations of flow normal to a circular disk at Re = 150000. Computers and Fluids, 140 (2016), pp.422-434.
[9] 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.
[10] Yang J., Tian X.*, and Li X. Hydrodynamic characteristics of a circular disk under steady in-plane current conditions. Ocean Engineering, 75(2014), pp.53-63.
[11] Tian X.*, Yang J., Li X. and Shen Y. Effects of Reynolds number on the hydrodynamic characteristics of heave damping plate. Journal of Ship Mechanics, 17(2013), pp.1392-1402.
[12] Jiang Z., Xie B., Cui W., Du Q., Tian X. A study on the heave performance and loads of the critical connections of a novel dry tree semisubmersible concept using numerical and experimental methods. Ocean Engineering, 124(2016), pp.42-53.
(二)海洋新能源装置方向:
[13] Wen B., Li Z., Jiang Z., Tian X., Dong X., Peng Z. Blade Loading Performance of a Floating Wind Turbine in Wave Basin Model Tests. Ocean Engineering 199(2020)107061
[14] Wen B., Tian X., Zhang Q., Dong X., Peng Z.*, Zhang W., Wei K. Monitoring Blade loads for a floating wind turbine in wave basin model tests using fiber bragg grating sensors: a feasibility study. Marine Structures 71 (2020) 102729
[15] Xiong H., Yang J., Tian X.* An experimental study on the inline wave force on a truncated vertical cylinder. Ships and Offshore Structures 15(2020), pp. 39-52.
[16] Wen B., Tian X., Dong X., Li Z., Peng Z.*, Zhang W., Wei K. Design Approaches of Performance-Scaled Rotor for Wave Basin Model Tests of Floating Wind Turbines. Renewable Energy (2019, in press).
[17] Zhang X., Tian X., Xiao L., Li X., Lu W.* Mechanism and sensitivity for broadband energy harvesting of an adaptive bistable point absorber wave energy converter. Energy (2019) 188, pp.115984.
[18] Tian X., Xiao J., Liu H., Wen B., Peng Z.* A Novel Dynamics Analysis Method for Spar-type Floating Offshore Wind Turbine. China Ocean Engineering (in press)
[19] Wen B., Tian X., Zhang Q., Dong X.*, Peng Z., Zhang W., Wei K. Wind shear effect induced by the platform pitch motion of an offshore floating wind turbine. Renewable Energy (2019) 135, pp. 1186-1199.
[20] Wen B., Tian X., Dong X.*, Peng Z., Zhang W., Wei K. A numerical study on the angle of attack to the blade of a horizontal-axis offshore floating wind turbine under static and dynamic yawed conditions. Energy 168 (2019), pp. 1138-1156.
[21] Wen B., Dong X., Tian X.*, Peng Z., Zhang W., Wei K. The power performance of an offshore floating wind turbine in platform pitching motion. Energy 154(2018), pp. 508-521.
[22] Wen B., Tian X., Dong X.*, Peng Z., Zhang W. Influences of surge motion on the power and thrust characteristics of an offshore floating wind turbine. Energy 141(2017), pp. 2054-2068.
[23] Xiao J., Peng Z., Tian X.*, Yang W. Numerical Simulations on the Dynamic Characteristics of a Shallow-draft Spar-type Floating Wind Turbine. Journal of Ship Mechanics. (in press)
[24] Wen B., Tian X., Dong X.*, Peng Z., Zhang W. On the power coefficient overshoot of an offshore floating wind turbine in surge oscillations. Wind Energy 21(2018), pp.1076-1091.
[25] Zhang X.*, Zheng S., Lu D.*, Tian X. Numerical investigation of the dynamic response and power capture performance of a VLFS with a wave energy conversion unit. Engineering Structures 195(2019), pp.62-83.
[26] Yang W.*, Tian W., Hvalbye O., Peng Z., Wei K. Experimental Research for Stabilizing Offshore Floating Wind Turbines. Energies 12 (2019), pp.1-15.
[27] Zhang X.*, Tian X., Xiao L., Li X., Chen L. Application of an adaptive bistable power capture mechanism to a point absorber wave energy converter. Applied Energy 228(2018), pp.450-467.
(三)海洋流体无人系统方向:
[28] Wang D., Wang P., Zhang X., Guo X., Shu Y., Tian X.*An obstacle avoidance strategy for the wave glider based on the improved artificial potential field and collision prediction model. Ocean Engineering 206(2020)107356
[29] Wang P., Zhang X., Wang D., Guo X., Lu W., Tian X.* A restricted circle based position keeping strategy for the wave glider. Applied Ocean Research 97(2020) 102081
[30] Wang P., Wang D., Zhang X., Guo X., Li X, Tian X.* Path following control of the wave glider in waves and currents. Ocean Engineering 193 (2019), pp.106578
[31] Wang P., Tian X.*, Lu W., Hu Z., Luo Y. Dynamic modeling and simulations of the wave glider. Applied Mathematical Modelling 66 (2019), pp. 77-96.
[32] Wang P., Tian X.*, Peng T., Luo Y. A review of the state-of-the-art developments in the field monitoring of offshore structures. Ocean Engineering 147(2018), pp. 148-164.
[33] Tian X., Wang P., Li X.*, Wu X., Lu W., Wu C., Hu Z., Rong H., Sun H., Wang A., Lin D., Fu S., Zu Y., Cho C., Zhou T., Zhang D., Chen Y. Design and Application of a Monitoring System for the Floatover Installation. Ocean Engineering 150(2018), pp. 194-208.
(四)其它论文:
[34] Zhang X.*, Tian X., Guo X., Li X., Xiao L. Bottom step enlarging horizontal momentum flux of dam break flow. Ocean Engineering (in press)
[35] Lu W., Li X., Zhang X., Tian X., Guo X*. Experimental study on the wave run-up and air-gap response of a three-column semi-submersible platform. Ocean Engineering (in press)
[36] Wei H., Xiao L.*, Low M.Y., Tian X., Liu M. Effects of bracings and motion coupling on resonance features of semi-submersible platform under irregular wave conditions. Journal of Fluids and Structures 92(2020):102783.
[37] Deng Y., Tian X.*, Li X. Study on nonlinear characteristics of freak-wave forces with different wave steepness. China Ocean Engineering 33(2019), pp.608-617.
[38] Lu W., Li J.*, Li X., Tian X., Wu X., Zhang X. Experimental investigation on the statistics of rogue waves. Ocean Engineering 186(2019):106075
[39] Lu D., Tian X., Lu W., Zhang X.* Combined effects of raft length ratio and structural flexibility on power capture performance of an interconnected-two-raft wave energy converter. Ocean Engineering 177(2019), pp.12-28.
[40] Liu L., Yang J., Lu H.*, Tian X., Lu W. Numerical simulations on the motion of a heavy sphere in upward Poiseuille flow. Ocean Engineering 172(2019), pp. 245-256.
[41] Qi K., Zhao Y., Liu L., Gan S., Luo X., Tian X.* Experimental Investigation on the Hydrodynamic Performance of Quay Moored FSRU and LNG Carrier. Journal of Ship Mechanics, (2019, inpress)
[42] Wei H., Xiao L.*, Tian X., Low Y. Nonlinear coupling and instability of heave, roll and pitch motions of semi-submersibles with bracings. Journal of Fluids and Structures 83 (2018) pp. 171-193.
[43] Qi Y., Tian X.*, Guo X., Lu H., Liu L. The hydrodynamic performance of a tension leg platform with one-tendon failure. Ships and Offshore Structures 14 (2019), pp. 523-533.
[44] Liu L., Yang J.*, Lu H., Tian X., Peng T. Effects of degrees of motion freedom on free-fall of a sphere in fluid. China Ocean Engineering 32 (2018), pp.605-613.
[45] Li X., Deng Y.*, Li L., Tian X., Li J. Motion and dynamic responses of a semisubmersible in freak waves. China Ocean Engineering 31(2017), pp.754-763.
[46] Wei H., Xiao L.*, Tian X., Feng W. Hybrid model testing using pre-offset and asymmetric truncation design for deepwater semi-submersible with highly compliant mooring system. Journal of Marine Science and Technology 23(2018), pp. 536-556.
[47] Wei H., Xiao L.*, Tian X., Kou Y. Four-level screening method for multi-variable truncation design of deepwater mooring system. Marine Structures, 51 (2017), pp.40-64.
[48] Liu M., Xiao L.*, Yang J., Tian X. Parametric study on the vortex-induced motions of semi-submersibles: Effect of rounded ratios of the column and pontoon. Physics of Fluids 29, 055101 (2017).
[49] Liu L., Yang J., Tian X.*, Lu H., Li C., Yuan H. Experimental investigation on the hydrodynamic performance of a quay moored jackup. Ships and Offshore Structures. 12(2017), pp.679-689.
[50] Lu W., Yang J.*, Tian X. Fourth Order Split-Step Pseudo-Spectral Method for the Modified Nonlinear Schrödinger Equation. Ships and Offshore Structures,12(2017) pp.424-432.
[51] Gao N., Yang J.*, Tian X., Li X. A numerical study on the nonlinear effects in focused wave modelling and forces on a semi-submerged horizontal cylinder. Ships and Offshore Structures. 12(2017), pp. 474-485.
[52] Wu F., Xiao L.*, Liu M., Tian X. Research on the effects of in-line oscillatory flow on the vortex induced motions of a deep draft semi-submersible in currents. China Ocean Engineering, 31(2017) pp.272-283.
[53] Deng Y., Yang J.*, Tian X., Li X., Xiao L. An experimental study on deterministic freak waves: Generation, propagation and local energy. Ocean Engineering, 118(2016), pp.83-92.
[54] Deng Y., Yang J.*, Tian X., Li X. Experimental investigation on rogue waves and their impacts on a vertical cylinder using the Peregrine breather model. Ship and Offshore Structures, 11(2016), pp. 757-765.
[55] Xiong H., Yang J., Tian X.* An experimental study on the inline wave force on a truncated vertical cylinder. Ships and Offshore Structures. 2015.
中文期刊论文(Chinese journal papers):
[1] 潘松,田新亮*. 基于直立型肥皂膜水洞的典型钝体绕流阻力实验研究.水动力学研究与进展(录用)
[2] 周润婕, 王鹏, 李家炜, 潘雨婷, 张芳园, 田新亮*. 波浪滑翔机弹性水翼性能模型试验研究. 实验室研究与探索,2020(1), pp. 65-68.
[3] 王新茹, 陈刚, 肖龙飞, 温斌荣, 田新亮*. 实尺度大型水平轴风机气动特性数值模拟. 中国海洋平台,2019,34(06):31-39.
[4] 盖晓娜, 田新亮*, 刘明月, 杨建民. 半潜式平台运动极短期预报的一种改进ARMA-EMD-SVR组合方法. 船舶力学(录用)
[5] 张琦, 赵亦希, 彭志科, 寇雨丰, 田新亮*. 应用于海洋工程缩比试验的浮式风力发电机模型设计. 实验室研究与探索. 2019, 38(6), pp. 11-15.
[6] 盖晓娜, 杨建民, 田新亮*. 基于小波-SVR模型的的浮体极短期运动预报方法. 舰船科学技术2018,40(21):66-70.
[7] 盖晓娜, 田新亮, 杨建民, 寇雨丰. 半潜式平台气隙实船监测与数据分析. 中国造船, 2016, 57(1): 80-90.
[8] 葛洪亮, 李欣, 杨建民, 田新亮. 浮托安装进船过程中护舷碰撞力实测研究. 海洋工程.2016, 34(3), pp.19-27.
[9] 吕元博, 田新亮*, 李欣, 宋春辉. NACA0012摆动水翼水动力特性的二维数值模拟. 中国舰船研究. 2018, 13(2), pp.7-15.
[10] 吴丞昊, 杨建民*, 田新亮, 胡智焕, 彭涛. 深海布放缆不同材料属性下应力波自由传播频率特性影响研究. 海洋工程. 2017, 35(5), pp. 12-22.
[11] 吴凡, 肖龙飞*, 刘明月, 田新亮. 矩形截面半潜式平台浪流耦合作用涡激运动响应二维数值模拟研究. 上海交通大学学报, 2016, 50(3), pp. 460-465.
[12] 田新亮,杨建民*,吕海宁. 海洋工程水动力学模型试验数据处理程序开发. 实验室研究与探索. 2010, 29(6).
Conference papers:
[1] Wen B., Zhang Q., Liu H., Tian X., Dong X., Peng Z., Zhao Y., Kou Y. An experimental apparatus for investigating the unsteady aerodynamics of a floating wind turbine. OMAE 2019-95915
[2] Zhao Y., Tian X., Wu X., Zhang X., Li X. Numerical investigations on the flow past an inclined thin square plate at Re = 300. OMAE 2019-95744.
[3] Liu L., Lu H., Yang J., Tian X., Peng T., Li J. Numerical study on the migration of two spheres in upward pipe flow. OMAE2018-77393.
[4] Wang P., Wu X., Lu W., Tian X., Li X. A field monitoring system for dynamic positioning floatover installation. OMAE2018-77572.
[5] Wen B., Zhang Q., Wei S., Tian X., Dong X., Peng Z. Comparisons between the typical wind shear and the wind shear induced by platform pitch motion of an offshore floating wind turbine. OMAE2018-77797.
[6] Liu L., Lu H., Yang J., Peng T., Tian X. Numerical Study of the Motion of a Freely Falling Sphere in Fluid. ISOPE 2017.
[7] Xiong L., Yang J. and Tian X. Influence of a seabed trench on a taut mooring line. OMAE2017.
[8] Deng Y., Yang J., Li X. and Tian X. An Experimental Investigation of Freak Wave Forces on Vertical Cylinders. ISOPE 2016.
[9] Ge X., Tian X., Yang J. and Kou Y. A preliminary analysis on the statistics of about one-year air gap measurement for a semi-submersible in South China Sea. ISOPE 2016.
[10] Wei H., Xiao L*. and Tian X. Nonlinear Coupling of Heave and Pitch for a Semi-submersible Platform with Bracings. ISOPE 2016.
[11] Xiong H., Yang J.*, Tian X. Wave Run-up and Inline Force around a Truncated Vertical Circular Cylinder with Different Submergence Depths. 第十七届中国海洋(岸)工程学术讨论会,广西,中国,2015.
[12] 孙晨光,张泽宇,田新亮*,熊凌志.浮箱和立柱形式对半潜平台水动力性能的影响研究.第十七届中国海洋(岸)工程学术讨论会,广西,中国,2015.
[13] 刘磊,杨建民*,田新亮,吕海宁.自升式平台码头系泊水动力性能试验研究.第十七届中国海洋(岸)工程学术讨论会,广西,中国,2015.
[14] Deng Y., Yang J.*, Xiao L., Tian X., Li J. An experimental investigation on the motion and dynamic responses of a semisubmersible in freak waves. 第十七届中国海洋(岸)工程学术讨论会,广西,中国,2015.
[15] Liu L., Yuan H., Yang J.*, Tian X., Li C., Lu H. A wave basin model test study for a jackup moored on the dock. Proceedings of the 25th International Ocean and Polar Engineering Conference, Kona, Big Island, Hawaii, USA, June 21-26, 2015.
[16] Lu W., Yang J.*, Tao L., Lu H., Tian X., Li J. 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, St. John’s, Newfoundland, Canada, May 31–June 5, 2015.
[17] 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, Nantes, France, June 9–14, 2013.
[18] Tian X., Yang J.*, Li J. and Xiao L. Direct numerical simulations on the uniform in-plane flow around an oscillating circular disk. Proceedings of the Twenty-third (2013) International Offshore and Polar Engineering, Anchorage, Alaska, USA, June 30–July 5, 2013.
[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, Rio de Janeiro, Brazil, June 10–15, 2012.
[20] 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, Rotterdam, The Netherlands, June 19–24, 2011.
[21] Tian X.*, Ong M.C., Yang J. and Myrhaug D. Numerical simulation of flow around rectangular cylinders with different aspect ratios. MekIT.11Trondheim, Norway. 2011.