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2022年学术论文发表
| 一、期刊论文: |
| [1] |
Mingzhe Wang, Decheng Wan, Jianhua Wang, An improved BEMT model based on agent actuating disk with application to ship self-propulsion simulation, Ocean Engineering, 2022, 266: 112787;
https://doi.org/10.1016/j.oceaneng.2022.112787
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| [2] |
Wenjie Zhong, Wentao Wang, Decheng Wan, Coupling potential and viscous flow models with domain decomposition for wave propagations, Journal of Hydrodynamics, 2022, 42241;
https://doi.org/10.1007/s42241-022-0067-7
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| [3] |
Ruosi Zha, Weiwen Zhao, Decheng Wan, Numerical Study on Water Entry of Projectiles with Various Head Shapes by a Multiphase Moving Particle Semi-implicit Method, International Journal of Offshore and Polar Engineering, 2022, 32(4): 402–410;
https://doi.org/10.17736/ijope.2022.ak50;
|
| [4] |
Fengze Xie, Weiwen Zhao, Decheng Wan, Overview of Moving Particle Semi-implicit Techniques for Hydrodynamic Problems in Ocean Engineering, Journal of Marine Science and Application, 2022, 21: 1-22,;
https://doi.org/10.1007/s11804-022-00284-9
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| [5] |
Shun Xu, Yingjie Xue, Weiwen Zhao, Decheng Wan, A Review of High-Fidelity Computational Fluid Dynamics for Floating Offshore Wind Turbines, Journal of Marine Science and Engineering, 2022, 10: 1357;
https://doi.org/10.3390/jmse10101357
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| [6] |
Jiawei He, Wentao Wang, Weiwen Zhao, Decheng Wan, Hybrid turbulence models for flows around a stationary smooth circular cylinder, Ocean Engineering, 2022, 262: 112312;
https://doi.org/10.1016/j.oceaneng.2022.112312
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| [7] |
Lianjie Yu, Weiwen Zhao, Decheng Wan, Jianwei Wu, Nonlinear noise of hydrofoil cavitation considering sound velocity variation and phase transitions, Ocean Engineering, 2022, 264: 112506;
https://doi.org/10.1016/j.oceaneng.2022.112506
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| [8] |
Congyi Huang, Guanyu Zhang, Decheng Wan, Hydroelastic responses of an elastic cylinder impacting on the free surface by MPS-FEM coupled method, Acta Mechanica Sinica, 2022, 38, 322057;
https://doi.org/10.1007/s10409-022-22057-x
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| [9] |
Lianjie Yu, Jianwei Wu, Decheng Wan, Correlation analysis between underwater noise and Liutex for DTMB4119 propeller, Journal of Hydrodynamics, 2022;
https://doi.org/10.1007/s42241-022-0051-2
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| [10] |
Xidi Zhang, Zhihua Liu, Liushuai Cao, Decheng Wan. Tip Clearance Effect on The Tip Leakage Vortex Evolution and Wake Instability of a Ducted Propeller. Journal of Marine Science and Engineering. 2022; 10(8):1007.
https://doi.org/10.3390/jmse10081007
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| [11] |
Zhenfeng Zhai, Weiwen Zhao, Decheng Wan, Dan Liu, Interaction of solitary wave with a concentric structure with multiple porous outer walls, Ocean Engineering, 2022, 260, 111887;
https://doi.org/10.1016/j.oceaneng.2022.111887
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| [12] |
Fengze Xie, Qingjie Meng, Decheng Wan, Numerical Simulations of Liquid−Solid Flows in A Vertical Pipe by MPS−DEM Coupling Method, China Ocean Engineering, 2022, 36: 542-552;
DOI: https://doi.org/10.1007/s13344-022-0048-1
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| [13] |
Yuan Zhuang, Guo Wang, Decheng Wan, Jianwei Wu, Numerical simulations of FPSO with sloshing tanks in a random freak waves, Journal of Hydrodynamics, 2022;
https://doi.org/10.1007/s42241-022-0036-1
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| [14] |
Yiding Hu, Jianwei Wu, Decheng Wan, Guo Wang, Yiqian Wang, Preliminary control of the air entrainment in bow wave based on the Liutex force method, Journal of Hydrodynamics, 2022;
https://doi.org/10.1007/s42241-022-0035-2
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| [15] |
Weiwen Zhao, Zhiyuan Wei, Decheng Wan, Numerical investigation on the effects of current headings on vortex induced motions of a semi-submersible, Journal of Hydrodynamics, 2022, 34: 382-394;
https://doi.org/10.1007/s42241-022-0034-3
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| [16] |
Fan Chen, Wenjie Zhong, Decheng Wan, Numerical investigation of the water entry of inclined cylinders using dynamic sliding mesh method, Ocean Engineering, 2022, 257, 111525;
https://doi.org/10.1016/j.oceaneng.2022.111525
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| [17] |
Chunhui Ma, Weiwen Zhao, Decheng Wan, Numerical investigations of the flow-induced vibration of a three-dimensional circular cylinder with various symmetric strips attached, Physics of Fluids, 2022, 34, 065102;
https://doi.org/10.1063/5.0087312
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| [18] |
Guanyu Zhang, Weiwen Zhao, Decheng Wan, Moving Particle Semi-implicit method coupled with Finite Element Method for hydroelastic responses of floating structures in waves, European Journal of Mechanics / B Fluids, 2022, 95: 63-82;
https://doi.org/10.1016/j.euromechflu.2022.04.005
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| [19] |
Zheng Li, Xiaosong Zhang, Decheng Wan, Research progress on the hydrodynamic performance of water-air-bubble mixed flows around a ship, Journal of Hydrodynamics, 2022, 34(2) :171-188;
https://doi.org/10.1007/s42241-022-0026-3
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| [20] |
Weiwen Zhao, Qingjie Meng, Decheng Wan, Yiqian Wang, Vortex structures of dynamic pure yaw test using DDES approach and vortex identification method, Journal of Hydrodynamics, 2022, 34(2) :226-233;
https://doi.org/10.1007/s42241-022-0021-8
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| [21] |
Xiao Wen, Weiwen Zhao, Decheng Wan, Multi-phase moving particle semi-implicit method for violent sloshing flows, European Journal of Mechanics / B Fluids, 2022, 95: 1–22;
https://doi.org/10.1016/j.euromechflu.2022.04.002
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| [22] |
Zhenfeng Zhai, Siming Zheng, Decheng Wan, Interaction between solitary waves and a combined structure of two concentric asymmetric porous arc walls, Physics of Fluids, 2022, 34: 042103; doi: 10.1063/5.0087878;
https://doi.org/10.1063/5.0087878
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| [23] |
Songtao Chen, Weiwen Zhao, Decheng Wan, On the scattering of focused wave by a finite surface-piercing circular cylinder: A numerical investigation, Physcis of Fluids, 2022, 34: 035132; doi: 10.1063/5.0086826;
https://doi.org/10.1063/5.0086826
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| [24] |
Guanyu Zhang, Ruosi Zha, Decheng Wan, MPS–FEM coupled method for 3D dam-break flows with elastic gate structures, European Journal of Mechanics / B Fluids, 2022, 94: 171-189;
https://doi.org/10.1016/j.euromechflu.2022.02.014
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| [25] |
Fenglai Huang, Qingjie Meng, Liushuai Cao, Decheng Wan, Wakes and free surface signatures of a generic submarine in the homogeneous and linearly stratified fluid, Ocean Engineering, 2022, 250: 111062;
https://doi.org/10.1016/j.oceaneng.2022.111062
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| [26] |
Jiawei He, Weiwen Zhao, Decheng Wan, Yiqian Wang, Numerical study of free end effect of cylinder with low aspect ratios on vortex induced motion, Journal of Hydrodynamics, 2022, 34(1): 106-115;
https://doi.org/10.1007/s42241-022-0011-x
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| [27] |
Guanyu Zhang, Weiwen Zhao, Decheng Wan,Numerical simulations of sloshing waves in vertically excited square tank by improved MPS method, Journal of Hydrodynamics, 2022, 34(1): 76-84;
https://doi.org/10.1007/s42241-022-0008-5
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| [28] |
Xiaosong Zhang, Weiwen Zhao, Decheng Wan, A Hybrid Volume-of-Fluid/Euler–Lagrange Method for Vertical Plunging Jet Flows, International Journal of Offshore and Polar Engineering, 2022, 32(1): 31–38;
https://doi.org/10.17736/ijope.2022.jc838
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| [29] |
Songtao Chen, Weiwen Zhao, Decheng Wan, Turbulent structures and characteristics of flows past a vertical surface-piercing finite circular cylinder, Physics of Fluids, 2022, 34, 015115;
https://doi.org/10.1063/5.0078526
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| [30] |
Xinwang Liu, Weiwen Zhao, Decheng Wan, Multi-fidelity Co-Kriging surrogate model for ship hull form optimization, Ocean Engineering, 2022, 243, 110239;
https://doi.org/10.1016/j.oceaneng.2021.110239
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| [31] |
Zhen Ren, Jianhua Wang, Decheng Wan, Investigation of fine viscous flow fields in ship planar motion mechanism tests by DDES and RANS methods, Ocean Engineering, 2022, 243, 110272;
https://doi.org/10.1016/j.oceaneng.2021.110272
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| [32] |
Zhiqiang Liu, Weiwen Zhao, Decheng Wan, Resistance and wake distortion optimization of JBC considering ship-propeller interaction, Ocean Engineering, 2022, 244, 110376;
https://doi.org/10.1016/j.oceaneng.2021.110376
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| [33] |
Xiangshan Guan, Weiwen Zhao, Decheng Wan, Fei Xu, Jie Liu, Numerical simulations of complex water spray flows around aircraft landing tire, European Journal of Mechanics/B Fluids, 2023, 97: 28-39;
https://doi.org/10.1016/j.euromechflu.2022.09.002
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| [34] |
于连杰,赵伟文,万德成. 含水气界面水动力噪声计算方法研究与应用进展综述[J]. 中国舰船研究,2022, 17(5): 85–102;
Lianjie Yu, Weiwen Zhao, Decheng Wan, Research progress and application of computational method for hydrodynamic noise from air-water interface, Chinese Journal of Ship Research, 2022, 17(5): 85–102
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| [35] |
郑建才,赵伟文,万德成,垂荡板对浮式风机水动—气动耦合性能影响研究,海洋工程,2022年1月,第40卷第1期,pp.65-73
Jiancai Zhen, Weiwen Zhao, Decheng Wan, Effects of heave plate on coupling aero-hydrodynamic performances of floating offshore wind turbine,The Ocean Engineering, 2022, Vol. 40, No. 1, pp. 65-73
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| [36] |
潘宣景,谢丰泽,万德成,用 MPS-DEM 法数值分析输运速度对立管混输特性的影响,水动力学研究与进展,2021年11月,第36卷第6期,pp.835-842
Xuanjing Pan, Fengze Xie, Decheng Wan, Numerical analysis of influence of liquid velocity on characteristics of vertical pipe transportation by MPS-DEM method, Chinese Journal of Hydrodynamics, 2021, Vol. 36, No. 6, pp. 835-842
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| [37] |
徐顺,赵伟文,万德成,复杂大气入流下海上风机力学特性研究,力学学报,2022年4月,第54卷,第4期,pp.874-882
Shun Xu, Weiwen Zhao, Decheng Wan, Numerical Study of Dynamic Characteristics for Offshore Wind Turbine Under Complex Atmospheric Inflow, Chinese Journal of Theoretical and Applied Mechanics, 2022, Vol. 54, No. 4, pp.874-882
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| [38] |
张牧,王建华,万德成,基于重叠网格的豪华邮轮多工况耐波性数值分析,中国舰船研究,2022年4月,第17卷第2期,pp.57-62
Mu Zhang, Jianhua Wang, Decheng Wan, Multi-state luxury cruise ship seakeeping based on overlapping grids, Chinese Journal of Ship Research, Vol. 17, No. 2, April 2022, pp. 57–62
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| [39] |
李乐宇,吴建威,万德成,基于CFD的带附体KCS船在波浪中的阻力及纵摇优化,中国舰船研究,2022年4月,第17卷第2期,pp.63-72
Leyu Li, Jianwei Wu, Decheng Wan, CFD-based optimization for resistance and pitch of KCS ship with appendages in waves, Chinese Journal of Ship Research, Vol. 17, No. 2, April 2022, pp. 63–72
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| [40] |
陈松涛,赵伟文,万德成,高洋洋,带自由液面有限长圆柱绕流数值模拟,中国舰船研究,2022年2月,第17卷第1期,pp.91-98
Songtao Chen, Weiwen Zhao, Decheng Wan, Yangyang Gao, Numerical simulation of flows around a finite-length cylinder with free surface, Chinese Journal of Ship Research, 2022, 17(1), pp. 91–98
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| [41] |
张晓嵩,和康健,万德成,船海结构物水气泡混合流机理及数值模拟方法研究进展,中国舰船研究,2022, 17(3), PP:1–28
Xiaosong Zhang, Kangjian He, Decheng Wan. Research progress on mechanism and numerical simulation methods of water-air-bubble mixed flow around marine structure, Chinese Journal of Ship Research, 2022, 17(3): 1–28
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| [42] |
胡浩, 吴建威,万德成,顶端振荡激励下柔性立管涡激振动数值研究, 中国舰船研究, 2022, 17(3), PP:153–159
Hao Hu, Jianwei Wu, Decheng Wan, Numerical study of vortex-induced vibrations of flexible riser under top oscillation excitation, Chinese Journal of Ship Research, 2022, 17(3): 153–159
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| [43] |
冀楠, 钱志鹏, 李浩然, 万德成, 实尺度船舶Z形操纵运动及流场特性模拟,中国舰船研究,2022, 17(3),PP: 93–101
Nan Ji, Zhipeng Qian, Haoran Li, Decheng Wan, Simulation of zigzag maneuver and flow field characteristics for full-scale ship. Chinese Journal of Ship Research, 2022, 17(3): 93–101
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| [44] |
杨玉肖,刘成,万德成,基于自适应直角网格的高速方尾船气泡尾流模拟,中国造船,2022年2月,第63卷第1期,pp.1-13
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| [45] |
潘宣景,赵伟文,万德成,用MPS-DEM法分析颗粒浓度和粒径对立管混输特性的影响,中国造船,2022年6月,第63卷第3期,pp.226-237
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| [46] |
刘志强,刘鑫旺,万德成,基于CFD数值模拟和模型试验的三体船片体位置优化,中国造船,2022年4月,第63卷第2期,pp.116-125
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| [47] |
钟文杰,陈帆,万德成,基于势流-黏流双向耦合模型的数值造波,中国造船,2022年4月,第63卷第2期,pp.30-40
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| [48] |
郑建才,赵伟文,万德成,带分形孔垂荡板浮式风力机性能的大涡模拟分析,中国造船,2022年4月,第63卷第2期,pp.1-12
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| [49] |
黄扬,赵伟文,万德成,浮式风机气动—水动—气弹性耦合响应数值模拟,海洋工程,2022年7月,第40卷第4期,pp.88-101
Yang Huang, Weiwen Zhao, Decheng Wan, Numerical simulation of coupled aero-hydro-elastic performance of floating offshore wind turbine,The Ocean Engineering, 2022, Vol. 40, No. 4, pp. 88-101
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| [50] |
郝未南,赵伟文,万德成,邓石,不同垂荡抑制结构对圆筒型FPSO 阻尼和运动性能的影响研究,水动力学研究与进展,2022年5月,第37卷第3期,pp.393-400
Weinan Hao, Weiwen Zhao, Decheng Wan, Shi Deng, Damping performance of anti-motion structures on cylindrical FPSO, Chinese Journal of Hydrodynamics, 2022, Vol. 37, No. 3, pp. 393-400
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| [51] |
兰小杰,赵伟文,万德成,用移动粒子半隐式方法数值模拟Poiseuille 流动问题,中国舰船研究,2022年8月,第17卷第4期,pp.177-182
Xiaojie Lan, Weiwen Zhao, Decheng Wan, Numerical simulation of Poiseuille flow based on moving particle semi-implicit method, Chinese Journal of Ship Research, Vol. 17, No. 4, August 2022, pp. 177-182
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| [52] |
袁常乐,赵伟文,万德成,考虑自由面反射作用的圆柱流噪声计算,海洋工程,2022年7月,第40卷第4期,pp.129-136;
Changle Yuan, Weiwen Zhao, Decheng Wan, Analysis of underwater radiation noise of cylinder considering the reflection of free surface,The Ocean Engineering, 2022, Vol. 40, No. 4, pp. 129-136
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| [53] |
兰小杰,赵伟文,万德成,邹丽,基于 MPS方法模拟低雷诺数方柱绕流问题,海洋工程,2022年5月,第40卷第3期,pp.84-92
Xiaojie Lan, Weiwen Zhao, Decheng Wan, Li Zou, Numerical simulation of low⁃Re flow around a square cylinder by MPS method,The Ocean Engineering, 2022, Vol. 40, No. 3, pp. 84-92
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| [54] |
陈松涛,赵伟文,万德成,虚拟流体方法在自由面流动问题中的应用,中国造船,2022年8月,第63卷第4期,pp.159-166
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| 二、会议论文: |
[1]
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Lianjie Yu, Qingjie Meng, Decheng Wan, Numerical Study of Cavitation Noise around 2-D Hydrofoil with Direct Volume Integration, Proceedings of the Thirty-first (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5 – 7, 2022, PP.3324-3330
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[2]
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Wenjie Zhang, Jianhua Wang, Yi Liu, Hao Guo, Decheng Wan, Numerical study of flow around a three-dimensional elastic cylinder based on coupled CFD-FEM method, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5–10, 2022, PP.2464-2469
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[3]
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Hao Hu, Zhiyuan Wei, Decheng Wan, Numerical Analysis of Vortex-Induced Vibration Suppression of a Flexible Riser Attaching with Symmetric Strips, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5–10, 2022, PP. 2549-2555
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[4]
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Songtao Chen, Qingjie Meng, Decheng Wan, Numerical Study on Breaking Waves Interaction with Vertical Wall attached with Recurved Parapet, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.2705-2711
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[5]
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Congyi Huang, Ping Xu, Decheng Wan, Sergei Strijhak, Numerical simulation of irregular waves by HOS method,Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP. 2423-2429
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[6]
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Weinan Hao, Zhiyuan Wei, Decheng Wan, Study of a Free-flooding Anti-motion Structure of the Cylindrical FPSO, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5 – 10, 2022, PP.796-803
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[7]
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Fengze Xie, Jian Wang, Decheng Wan, Numerical Simulation of Tsunamis Induced by Rigid Landslide Using MPS-DEM Coupled Method, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP. 2377-2383
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[8]
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Xuanjing Pan, Zhiyuan Wei, Decheng Wan, MPS-DEM Method for Particle Effects on Mixed Transportation Characteristics of Horizontal Pipeline, Proceedings of the Thirty-second(2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5-10, 2022, PP.57-64
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[9]
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Dezhi Wei, Nina Wang, Decheng Wan, Sergei Strijhak,Numerical Study on the Asymmetry in Wake Steering of Wind Turbine under Yawed Conditions,Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference,Shanghai, China, June 5–10, 2022,PP. 268-273
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[10]
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Zhiqiang Liu, Jian Wang, Decheng Wan, Nonlinear Design-Space Dimensionality Reduction in Shape Optimization, , Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5 – 10, 2022, PP.3495-3500
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[11]
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Shun Xu, Nina Wang, Decheng Wan, Sergei Strijhak, Large Eddy Simulations for Floating Wind Turbine Under Complex Atmospheric Inflow, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.190-197
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[12]
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Yabo Wei, Qingjie Meng, Decheng Wan, CFD Study of Trimaran Seakeeping Performance with Various Wave-lengths, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Shanghai, China, June 5–10, 2022, PP.3823-3828
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[13]
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Yuan Zhuang, Jianhua Wang, Wenjun Zhou, Cong Liu, Decheng Wan,Numerical Study of Wave-Structure Interaction with HOS-CFD Method,Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference,Shanghai,China, June 5–10, 2022,PP.2470-2477
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[14]
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Xidi Zhang, Jianwei Wu, Liushuai Cao, Decheng Wan.Comparative Study on Wake Instabilities of a Propeller with and without Duct.Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference,Shanghai, China, June 5–10, 2022, PP. 3708-3713
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[15]
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Wenjie Zhong, Nina Wang, Decheng Wan, A Coupled CFD and Dynamic Mooring Model for FOWT Hydrodynamics, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.2577-2584
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[16]
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Siqi Chen, Nina Wang, Decheng Wan, Numerical Study of Aerodynamic Performances of Floating Offshore Wind Turbine with Rotation andPitching Motion, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.138-146
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[17]
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Gong Chen, Jianwei Wu, Decheng Wan, Optimization of Submarine Resistance and Manoeuvrability Based on SBD Technique, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.1090-1097
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[18]
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Mengshang Zhao, Nina Wang, Decheng Wan, Pressure Pulsation Characteristics of Tidal Turbine Using Bidirectional Fluid-Solid Coupling, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.2712-2719
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[19]
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Ruosi Zha, Weiwen Zhao, Decheng Wan, Numerical Simulations of Water Entry of Projectiles with Different Head Shapes by Multiphase MPS Method, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.3214-3221
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[20]
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Xiangshan Guan, Ruosi Zha, Decheng Wan, SPH Method for Impact Load of Water Spray Generated by the Landing Gear, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10, 2022, PP.3228-3235
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[21]
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Kang Liu, Liushuai Cao, Decheng Wan, Research on the Tip Vortex Cavitation and Its Control of an Elliptical Hydrofoil, Proceedings of the Thirty-first (2022) International Ocean and Polar Engineering Conference, Shanghai, China, June 5–10,, 2022, PP.3331-3339
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[22]
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Mingzhe Wang, Jianhua Wang, Decheng Wan, Numerical Investigation of Propeller-Rudder Interaction Based on Induct Factor Fitting Body Force Method, Proceedings of the Thirty-second (2022) International Ocean and Polar Engineering Conference Rhodes, Shanghai, China, June 5–10, 2022, PP.3700-3707
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[23]
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Fengze Xie, Weiwen Zhao, Decheng Wan, Two Different 3D MPS-DEM models for liquid-solid flows with free surface, Proceeding of 2022 SPHERIC Xi'an International Workshop, Xi’an, China, March 28-April 2, 2022, PP.357-362
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[24]
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Guanyu Zhang, Weiwen Zhao, Decheng Wan, Hydroelastic responses of an elastic cylinder impacting on the free surface by MPS-FEM coupled method, Proceeding of 2022 SPHERIC Xi'an International Workshop, Xi’an, China, March 28-April 2, 2022, PP.363-370
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[25]
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霍帅文,赵伟文,万德成,通过主动造波消波边界条件方式数值求解波浪与圆柱相互作用问题,第三十三届全国水动力学研讨会论文集,2022年10月28日-2022年10月30日,重庆,pp.519-531
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[26]
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王澳,王建华,万德成. 规则波下中型邮轮运动响应及砰击载荷的CFD数值预报. 第三十三届全国水动力学研讨会论文集,2022年10月28日-10月31日,重庆,pp.987-996
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[27]
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李仁祥,潘宣景,万德成. 基于MPS-DEM方法数值分析不同浓度下固体颗粒对水平管道混输运动的影响. 第三十三届全国水动力学研讨会论文集,2022年10月28日-10月31日,重庆,pp.562-570
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[28]
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邵聿明,王建华,万德成,基于CFD方法预报REGAL船的阻力和精细化流场,第三十三届全国水动力学研讨会论文集,2022年10月28日-2022年10月30日,重庆,pp.532-541
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[29]
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薛瑛杰,赵伟文,万德成,仿鸮前缘突节风机叶片气动流场数值模拟,第三十三届全国水动力学研讨会论文集,2022年10月28日-2022年10月30日,重庆,pp.542-552
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[30]
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