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2020年学术论文发表
| 一、期刊论文: |
| [1] |
Xiaosong Zhang, Jianhua Wang, Decheng Wan, An improved multi-scale two phase method for bubbly flows, International Journal of Multiphase Flow, 2020, 133, 103460
https://doi.org/10.1016/j.ijmultiphaseflow.2020.103460;
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| [2] |
Xinze Duan, Jianhua Wang, Decheng Wan, CFD Investigations of Wake Flow Interactions in a Wind Farm with 14 Wind Turbines, International Journal of Offshore and Polar Engineering, 2020, 30(3): 257–265;
https://doi.org/10.17736/ijope.2020.mm23
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| [3] |
Cong Liu, Jianhua Wang, Decheng Wan, CFD Simulations of Self-Propulsion and Turning Circle Maneuver up to 90° of Ship in Waves, Journal of Ship Research, 2020;
http://dx.doi.org/10.5957/JOSR.09180083
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| [4] |
Aiqin Miao, Decheng Wan, Hull Form Optimization Based on an NM+CFD Integrated Method for KCS, International Journal of Computational Methods, 2020, 17(10), 2050008: 1-14;
DOI: 10.1142/S0219876220500085
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| [5] |
Zhen Ren, Jianhua Wang, Decheng Wan, Investigation of the Flow Field of a Ship in Planar Motion Mechanism Tests by the Vortex Identification Method, Journal of Marine Science and Engineering, 2020, 8, 649;
doi:10.3390/jmse8090649
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| [6] |
Fengze Xie, Weiwen Zhao, Decheng Wan, CFD simulations of three-dimensional violent sloshing flows in tanks based on MPS and GPU, Journal of Hydrodynamics, 2020;
https://doi.org/10.1007/s42241-020-0039-8
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| [7] |
Yanzhang Xu, Weiwen Zhao, Decheng Wan, MPS Method for Interaction Between Solitary Waves and Submerged Horizontal Plate, China Ocean Engineering, 2020, 34(3): 314–327
https://doi.org/10.1007/s13344-020-0029-1;
https://rdcu.be/b4H3j
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| [8] |
Jianhua Wang, Decheng Wan,Application Progress of Computational Fluid Dynamic Techniques for Complex Viscous Flows in Ship and Ocean Engineering, Journal of Marine Science and Application, 2020,19(1):1-16
DOI:10.1007/s11804-020-00124-8
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| [9] |
Xiaosong Zhang, Jianhua Wang, Decheng Wan, Numerical techniques for coupling hydrodynamic problems in ship and ocean engineering, Journal of Hydrodynamics, 2020;
https://doi.org/10.1007/s42241-020-0021-5;
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| [10] |
Weiwen Zhao, Jianhua Wang, Decheng Wan, Vortex identification methods in marine hydrodynamics, Journal of Hydrodynamics, 2020, 32(2): 286-295;
https://doi.org/10.1007/s42241-020-0022-4;
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| [11] |
Di Deng , Weiwen Zhao , Decheng Wan, Vortex-induced vibration prediction of a flexible cylinder by three-dimensional strip model, Ocean Engineering, 2020, 205, 107318;
https://doi.org/10.1016/j.oceaneng.2020.107318;
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| [12] |
Yuan Zhuang, Decheng Wan, Review: Recent Development of High-Order-Spectral Method Combined with Computational Fluid Dynamics Method for Wave-Structure Interactions, Journal of Harbin Institute of Technology (New Series), 2020, 27(3):170-188;
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| [13] |
Zhenghao Liu, Yuan Zhuang, Decheng Wan, Numerical Study of Focused Wave Interactions with a Single-Point Moored Hemispherical-Bottomed Buoy, International Journal of Offshore and Polar Engineering, 2020, 30(1): 53–61;
https://doi.org/10.17736/ijope.2020.jc780
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| [14] |
Edward Ransley, Shiqiang Yan, Christian Windt, Pal Schmitt, Josh Davidson, Zhenghao Liu, Yuan Zhuang, Decheng Wan, A Blind Comparative Study of Focused Wave Interactions with Floating Structures, International Journal of Offshore and Polar Engineering, 2020, 30(1): 1-10;
https://doi.org/10.17736/ijope.2020.jc774
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| [15] |
Xiaosong Zhang, Jianhua Wang, Decheng Wan, Euler–Lagrange Study of Bubble Drag Reduction in Turbulent Channel Flow and Boundary Layer Flow, Physics of Fluids, 2020, Vol. 32, 027101;
https://doi.org/10.1063/1.5141608
该论文获2020年Moan-Faltinsen最佳论文奖
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Savannah Mandel, Euler-Lagrange Method Extends Research on How Bubbles Reduce Ship Drag, Scilight, AIP Publishing, Feb. 03, 2020;
https://doi.org/10.1063/10.0000732
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| [16] |
Aiqin Miao, Min Zhao, Decheng Wan, CFD-based Multi-Objective Pptimisation of S60 Catamaran Considering Demihull Shape and Separation, Applied Ocean Research, 2020, Vol. 97, 102071;
https://doi.org/10.1016/j.apor.2020.102071
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| [17] |
Jianhua Wang, Zhen Ren, Decheng Wan, Study of a Container Ship with Breaking Waves at High Froude Number Using URANS and DDES Methods, Journal of Ship Research, 2020, 64(4): 346-356; https://doi.org/10.5957/JOSR.09180081
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| [18] |
Jianhua Wang, Decheng Wan, CFD Study of Ship Stopping Maneuver by Overset Grid Technique, Ocean Engineering, 2020, 197, 106895;
https://doi.org/10.1016/j.oceaneng.2019.106895
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| [19] |
Yang Huang, Decheng Wan, Investigation of Interference Effects between Wind Turbine and Spar-Type Floating Platform under Combined Wind-Wave Excitation, Sustainability, 2020, 12(1), 246;
https://doi.org/10.3390/su12010246
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| [20] |
Yuan Zhuang, Decheng Wan, Numerical Study on Ship Motion Fully Coupled with LNG Tank Sloshing in CFD Method,International Journal of Computational Methods, 2019, 16(6), 1840022-1-1840022-18;
DOI: 10.1142/S0219876218400224
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| [21] |
Jianhua Wang, Weiwen Zhao, Decheng Wan, Simulations of Self-Propelled Fully Appended Ship Model at Different Speeds, International Journal of Computational Methods, 2019, 16(5), 1840015-1-1840015-22;
DOI: 10.1142/S0219876218400157
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| [22] |
Xiang Chen, Decheng Wan, Numerical Simulation of Three-Dimensional Violent Free Surface Flows by GPU-Based MPS Method, International Journal of Computational Methods, 2019, 16(4), 1843012-1-1843012-20;
DOI: 10.1142/S0219876218430120
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| [23] |
Zhen Ren, Decheng Wan, Numerical Prediction of Wall Effect on Propeller in Restricted Channel, Journal of Applied Mathematics and Physics, 2019, 7(8): 1645-1659;
doi: 10.4236/jamp.2019.78112
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| [24] |
Yijie Liu, Jianhua Wang, Decheng Wan, Numerical Simulations of Cavitation Flows around Clark-Y Hydrofoil, Journal of Applied Mathematics and Physics, 2019, 7(8): 1660-1676;
doi: 10.4236/jamp.2019.78113
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| [25] |
Minsheng Zhao, Weiwen Zhao, Decheng Wan, Numerical simulations of propeller cavitation flows based on OpenFOAM, Journal of Hydrodynamics, 2020
https://doi.org/10.1007/s42241-020-0071-8
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| [26] |
刘鑫旺,万德成,豪华邮轮多航速兴波阻力的船型优化,中国舰船研究,2020,15(5): 1-10,40
Xinwang Liu, Decheng Wan, Hull form optimization of wave-making resistance in different speeds for a luxury cruise ship. Chinese Journal of Ship Research, 2020, 15(5): 1-10,40
https://doi.org/10.19693/j.issn.1673-3185.01845
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| [27] |
许彦章, 万德成,基于MPS-FEM 方法数值模拟孤立波与垂直板的相互作用,水动力学研究与进展,2020年5月,第35卷第3期,pp.346-355
Yanzhang Xu, Decheng Wan, Application of MPS-FEM method to numerical simulate the interaction between solitary wave and a vertical plate, Chinese Journal of Hydrodynamics, 2020, Vol. 35, No. 3, pp.346-355
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| [28] |
王涛, 魏德志,万德成,动态入流条件下带控制系统风力机的运行特性模拟,水动力学研究与进展,2020年5月,第35卷第3期,pp.391-400
Tao Wang, Dezhi Wei, Decheng Wan, Numerical simulation of wind turbine under dynamic inflow condition with control system, Chinese Journal of Hydrodynamics, 2020, Vol. 35, No. 3, pp.391-400
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| [29] |
王宾,李红涛, 刘嵩,万德成,海上风电单桩式支撑结构冰激振动及参数敏感性分析,海洋工程,2020年5月,第38卷第3期,pp.94-101
Bin Wang, Hongtao Li, Song Liu, Decheng Wan, Ice-induced vibration and parameter sensitivity analysis for a monopile supported offshore wind turbine,The Ocean Engineering, 2020, Vol. 38, No. 3, pp. 94-101
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| [30] |
周彬,赵敏,万德成,基于大涡模拟的ROV导管推进器梢隙流动数值研究,海洋工程,2020年5月,第38卷第3期,pp.85-93
Bin Zhou, Min Zhao,Decheng Wan, Numerical research of the tip leakage flow in a ROV ducted propeller based on the LES method,The Ocean Engineering, 2020, Vol. 38, No. 3, pp. 85-93
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| [31] |
武磊,赵伟文,万德成,不同浸没长度下串列双立管涡激振动数值模拟,海洋工程,2020年5月,第38卷第3期,pp.52-61
Lei Wu, Weiwen Zhao, Decheng Wan, Numerical simulations on vortex-induced vibrations( VIV) of two tandem risers with different submerged lengths, The Ocean Engineering, 2020, Vol. 38, No. 3, pp. 52-61
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| [32] |
王晋楷,万德成,基于Lewis剖面法快速评估船舶纵向运动,中国造船,2020年3月,第61卷第1期,pp.60-69
Jinkai Wang, Decheng Wan, Rapid Evaluation of Ship Montion to Nonlinear Focusing Waves Based on Lewis Section Method, Shipbuilding of China, 2020, Vol. 61, No. 1, pp. 60-69
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| [33] |
梁尚, 李勇, 万德成,基于自适应网格技术的Clark-Y 水翼空泡数值模拟,水动力学研究与进展,2020年1月,第35卷第1期,pp.1-8
Shang Liang, Yong Li, Decheng Wan, Numerical simulation of cavitation around Clark-Y hydrofoil based on adaptive mesh refinement, Chinese Journal of Hydrodynamics, 2020, Vol. 35, No. 1, pp. 1-8
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| [34] |
庄园, 万德成,带液舱FPSO 船内外流场耦合的数值分析,水动力学研究与进展,2020年1月,第35卷第1期,pp.100-105
Yuan Zhuang, Decheng Wan, Fully coupled analysis of FPSO ship motion with partially filled sloshing tanks, Chinese Journal of Hydrodynamics, 2020, Vol. 35, No. 1, pp. 100-105
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| [35] |
余安正, 万德成,高航速下KCS 模型艏波破碎与艏部涡量数值研究,水动力学研究与进展,2020年1月,第35卷第1期,pp.122-132
Anzheng Yu, Decheng Wan, Numerical study of bow wave breaking and vorticity of KCS under high speeds, Chinese Journal of Hydrodynamics, 2020, Vol. 35, No. 1, pp. 122-132
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| [36] |
万德成, 缪爱琴, 赵敏,基于水动力性能优化的船型设计研究进展,水动力学研究与进展,2019年11月,第34卷第6期,pp.693-712
Decheng Wan, Aiqin Miao, Min Zhao, Research progress in ship design based on optimization of hydrodynamic performances, Chinese Journal of Hydrodynamics, 2019, Vol. 34, No. 6, pp. 693-712
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| 二、会议论文: |
[1]
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Yihao Lu, Guanyu Zhang, Decheng Wan,Numerical simulations of an elastic plate entry water by coupled MPS-FEM method, International SPHERIC (SPH European Research Interest Community) Workshop, Harbin, China, Jan.13-16, 2020, pp. 249-256
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[2]
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Guanyu Zhang, Decheng Wan, MPSFEM-SJTU solver for dam-break flows interaction with elastic columns, International SPHERIC (SPH European Research Interest Community) Workshop, Harbin, China, Jan.13-16, 2020, pp. 241-248
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[3]
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Xiao Wen, Decheng Wan, Multiphase MPS method for solitary wave breaking in stratified flows, International SPHERIC (SPH European Research Interest Community) Workshop, Harbin, China, Jan.13-16, 2020, pp. 163-171
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[4]
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Fengze Xie, Decheng Wan, Numerical simulations of three-dimensional violent sloshing flows in tanks, International SPHERIC (SPH European Research Interest Community) Workshop, Harbin, China, Jan.13-16, 2020, pp. 194-201
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[5]
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Nina Wang, Yang Huang, Decheng Wan, Wigley Hull Form Optimization with or without Bulbous Bow, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.485-491
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[6]
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Dezhi Wei, Decheng Wan, Shengxiao Zhao, Numerical Analysis of Atmospheric Turbulence Effects on Wind Turbine, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.492-499
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[7]
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Kaiyu Zhan, Decheng Wan, Zhiming Yuan, Cohesive Element Method for Ice Load on Conical Structures, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.743-749
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[8]
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Liushuai Cao, Fenglai Huang, Decheng Wan, Qing Xiao2, Computational Analysis of Sphere Wakes in a Linearly Stratified Fluid, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.1236-1240
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[9]
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Weiwen Zhao, Decheng Wan, Shengxiao Zhao, CFD Simulation of Two-Phase Flows Past a Surface-Piercing Circular Cylinder, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.1780-1785
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[10]
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Xiaosong Zhang, Jianhua Wang, Decheng Wan, Numerical Simulation of Bubble Breakup and Coalescence in a Turbulent Boundary Layer Flow, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.1823-1829
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[11]
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Zheng Li, Cheng Liu, Decheng Wan, Numerical Simulations of Droplet Impact onto a Pool Surface, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.1836-1841
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[12]
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Xiao Wen, Decheng Wan, Changhong Hu, Numerical Study of Interaction between Internal Solitary Waves and Uniform Slope by MPS Method, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.1986-1993
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[13]
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Chenliang Zhang, Xiaojian Liu, Jinbao Wang, Decheng Wan, Numerical and Experimental Study of Dynamic PMM tests of the ONRT Hull, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2020-2026
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[14]
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Cheng Liu, Zheng Li, Yiding Hu, Decheng Wan, Numerical Simulations of Breaking Waves Based on Block-Structured Adaptive Mesh Refinement, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2171-2175
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[15]
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Bo Han, Weiwen Zhao, Decheng Wan, Numerical Study of Interaction of Focusing Waves with Fixed Cylinder, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2273-2277
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[16]
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Xiaotong Yang, Decheng Wan, Zhonghua Li, Numerical Simulations of Interaction between Focused Waves and Moving Cylinder, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2299-2306
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[17]
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Jianhua Wang, Decheng Wan, Moustafa Abdel-Maksoud, CFD Investigations of Ship Propulsion Performance at Different Trim Angles, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.42338-2344
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[18]
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Shang Liang, Decheng Wan, Changhong Hu, CFD Study of Tip Vortex Cavitation around Hydrofoil, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2345-2351
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[19]
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Chunhui Ma, Decheng Wan, Zhiming Yuan, Three-Dimensional Numerical Simulation of Vortex-Induced Vibration of a Rigid Cylinder, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2360-2367
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[20]
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Min Li, Di Deng, Decheng Wan, VIV of Flexible Riser Conveying Internal Fluid Subjected to Uniform Current, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2381-2388
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[21]
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Minsheng Zhao, Decheng Wan, Zhonghua Li, Numerical Simulation of Cavitation Flows around NACA66 Hydrofoil by Adaptive Mesh Refinement, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2389-2395
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[22]
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Yuan Zhuang, Decheng Wan, Zhonghua Li, Freak Wave-Induced Ship Motion with Sloshing Tanks Based on a HOS-CFD Coupling Method, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2465-2471
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[23]
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Yuqi Zhang, Decheng Wan, Changhong Hu, Numerical Study of Vortex-Induced Vibration of a Flexible Riser under Offshore Platform Horizontal Motion, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.2555-2562
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[24]
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Xiaobin Yang, Cheng Liu, Decheng Wan, High Resolution Numerical Simulation on Cavitation Collapse, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3403-3408
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[25]
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Xinwang Liu, Decheng Wan, Moustafa Abdel-Maksoud, Comparative Study of Hull Form Optimization with or without Design-Space Dimensionality Reduction, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3446-3454
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[26]
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Yiding Hu, Cheng Liu, Decheng Wan, Numerical Simulation of Bow Waves Generated by a Rectangular Plate, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3515-3520
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[27]
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Zhen Ren, Jianhua Wang, Decheng Wan, Moustafa Abdel-Maksoud, Numerical Investigation of Propeller-Rudder Interaction Based on Body Force Approach, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3781-3788
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[28]
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Xinwang Liu, Decheng Wan, Changhong Hu, Multi-Objective Hull Form Optimization of Trimaran’s Total Drag at Different Speeds, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3850-3857
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[29]
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Guanyu Zhang, Decheng Wan, Zhonghua Li, MPS-FEM Coupled Method for Wave-Induced Vibration of Elastic Ship Hull, Proceeding the Thirtieth (2020) International Ocean and Polar Engineering Conference Shanghai, China, October 11-16, 2020, PP.3967-3974
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[30]
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Yang Huang, Decheng Wan, Numerical Analysis of Aeroelastic Responses of Wind Turbine under Uniform Inflow, the 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2020, August 3-7, 2020, Virtual, Online, OMAE2020-18084
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[31]
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Di Deng, Decheng Wan, Thick Strip Model for Vortex-Induced Vibration of Two Flexible Cylinders in Tandem Arrangements, the 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2020, August 3-7, 2020, Virtual, Online, OMAE2020-18085
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[32]
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Xiao Wen, Xiang Chen, Decheng Wan, Numerical Simulation of Multi-Layer-Liquid Sloshing by Multiphase MPS-GPU Method, the 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2020, August 3-7, 2020, Virtual, Online, OMAE2020-18086
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[33]
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Dezhi Wei, Decheng Wan, Numerical Study of Yawed Wind Turbine under Unstable Atmospheric Boundary Layer Flows, the 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2020, August 3-7, 2020, Virtual, Online, OMAE2020-18087
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[34]
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Xiaosong Zhang, Decheng Wan,CFD Study of Air-Layer Drag Reduction on a Plate with Different Kinds of Cavity Design, the 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2020, August 3-7, 2020, Virtual, Online, OMAE2020-18088
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[35]
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Jianhua Wang, Decheng Wan, A Comparative Study of RANS and DDES Performance in Predicting Ship Maneuverability for a Free-Running Model, The 33rd Symposium on Naval Hydrodynamics,2020.
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[36]
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Yuan Zhuang, Decheng Wan, Benjamin Bouscasse, Pierre Ferrant, A Combined Method of HOS and CFD for Simulating a Container Ship in Steep Waves, The 33rd Symposium on Naval Hydrodynamics,2020.
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[37]
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Cong Ye, Liushuai Cao, Decheng Wan, Numerical Investigation on Hydrodynamics of a Deep Submergence Rescue Vehicle, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp. 472-477
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[38]
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Songtao Chen, Weiwen Zhao, Decheng Wan, CFD Study of Free Surface Effect on Flow around a Surface-Piercing Cylinder, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.115-121
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[39]
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Di Deng, Weiwen Zhao, Decheng Wan, Numerical Investigations of VIV of a Flexible Cylinder in Oscillatory Flows by Thick Strip Model, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp229-235
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[40]
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Hao Hu, Di Deng, Decheng Wan, Numerical Study of Vortex-Induced Vibrations of a Vertical Tensioned Riser under Different Periods of Platform Motion, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.236-241
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[41]
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Nina Wang, Xinwang Liu, Decheng Wan, Comparative Study of Trimaran’s Resistance Optimization by Potential/Viscous-Flow Methods, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.122-129
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[42]
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Zhiqiang Liu, Xinwang Liu, Decheng Wan, Wigley Hull Design Optimization Based on Artificial Neural Network and Genetic Algorithm, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.423-428
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[43]
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Luyu Chen, Weiwen Zhao, Decheng Wan, Numerical Simulations of Flows around a Surface-Piercing Flat Plate, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.14-19
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[44]
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Wentao Wang, Gengyao Qiu, Jianhua Wang, Decheng Wan, Experimental and Computational Investigations on KCS Wave Breaking with Trim and Sinkage Variation, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium, Dalian, China, November 22-25, 2020, pp.434-440
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[45]
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Fengze Xie, Guanyu Zhang, Decheng Wan, MPS-DEM Coupled Method for Fluid-Structure Interaction with Free Surface Flows, Proceedings of the Fourteenth (2020) ISOPE Pacific-Asia Offshore Mechanics Symposium Dalian, China, November 22-25, 2020, pp.213-220
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[46]
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吴定坤,王建华,万德成. CFD 方法模拟高航速 DTMB 船模艏波破碎. 第三十一届全国水动力学研讨会暨第三十一届全国水动力学学术会议文集,2020年10月30-11月1日,福建厦门,pp.1883-1894.
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[47]
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刘志强、刘鑫旺、万德成,船型优化中不同近似模型精度分析,第三十一届全国水动力学研讨会暨第三十一届全国水动力学学术会议文集,2020年10月30-11月1日,福建厦门,pp.872-890.
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[48]
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刘鑫旺,万德成,船型优化中降阶模型与近似模型结合的流场学习与预报方法,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30-11月1日,福建厦门,pp.933-946.
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[49]
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张冠宇,万德成. 基于MPS-FEM 方法研究波浪对悬空桥梁结构的砰击作用,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月31日-11月1日,福建厦门,pp.1912-1925.
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[50]
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于连杰,万德成,基于Curle 积分计算椭球体水下远场噪声,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月31-11月1日,福建厦门,pp.922-932.
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[51]
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白鹤鸣,万德成,王尼娜,赵生校,大气边界层入流下错列排布三风机气动性能数值模拟,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议论文集,2020年10月31日-11月1日,福建厦门,pp.1253-1270.
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[52]
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卢泽宇,谢丰泽,万德成,二维海冰与斜面相互作用的里三单元模拟,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月31日-11月1日,福建厦门,pp. 900-912.
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[53]
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黄凤来,曹留帅,万德成. 连续密度分层流中潜艇近水面航行时复杂流场数值模拟. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月31日-11月1日,福建厦门,pp1849-1863.
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[54]
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曹留帅,刘振明,万德成. 船用柴油机电控喷油器球阀及球阀座空化效应数值模拟研究. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月31日-11月1日,福建厦门,pp891-899.
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[55]
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赵旻晟,万德成,非均匀流场中螺旋桨空化的数值模拟,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1903-1911.
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[56]
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王建华,万德成. 数值分析船舶纵倾对船舶兴波破碎形态的影响. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1876-1882.
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[57]
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杨晓彤,万德成,规则波下海洋平台气隙响应数值分析 ,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1818-1824.
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[58]
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李乐宇,刘鑫旺,万德成. 基于黏流对三体船主体与片体间兴波干扰对其阻力的影响分析. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1840-1848.
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[59]
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袁常乐,万德成. 不同几何形状水下远场噪声分析. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.440-447.
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[60]
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李敏,邓迪,万德成. 含内流流动细长柔性立管涡激振动的模拟. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1863-1875.
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[61]
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杨玉肖,赵旻晟,万德成. 不同网格加密方式模拟 NACA0012 水翼空化流动. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.913-921
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[62]
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谢路毅,万德成. KCS船模艏波破碎过程的精细化数值模拟. 第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1895-1902.
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[63]
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郑建才,万德成,王尼娜,赵生校,基于尾流叠加模型的风电场数值模拟,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.1825-1839.
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[64]
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张牧,王建华,万德成,基于两种不同近似模型的DTMB 5415总阻力船型优化,第三十一届全国水动力学研讨会暨第十六届全国水动力学学术会议文集,2020年10月30日-11月1日,福建厦门,pp.947-956.
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[65]
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刘成,胡一丁, 杨玉肖, 万德成. 船海结构物复杂界面流动的精细化模拟. 第六届全国船舶与海洋工程CFD会议论文集,2020年11月27日-11月29日,广东广州,pp.169-178.
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[66]
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郭涵慧,赵伟文,万德成 .加装来流侧分隔板的圆柱绕流三维数值模拟研究. 第六届全国船舶与海洋工程CFD会议论文集,2020年11月27日-11月29日,广东广州,pp.788-801.
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[67]
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赵旻晟,万德成. 螺旋桨在非均匀流场中的空化模拟.第六届全国船舶与海洋工程CFD会议论文集,2020年11月27日-11月29日,广东广州,pp. 903-911.
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[69]
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袁常乐,万德成 .不同雷诺数下圆柱流噪声分析. 第六届全国船舶与海洋工程CFD会议论文集,2020年11月27日-11月29日,广东广州,pp.101-112.
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[70]
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白鹤鸣,王尼娜,万德成,基于不同解析尾流模型的海上风电场数值模拟,第六届全国船舶与海洋工程CFD会议,2020年11月27日-11月29日,广东广州,pp.566-593.
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