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    刘勇
    发布人:卞玉龙??发布时间:2017-05-04?? 浏览次数:17211

    姓名:刘勇

    职称/职务:教授2020最新送彩金的网站-2020年白菜网领体验金2020最新送彩金的网站-2020年白菜网领体验金、博导2020最新送彩金的网站-2020年白菜网领体验金、工程学院院长

    国家杰出青年科学基金获得者2020最新送彩金的网站-2020年白菜网领体验金、教育部青年长江学者

    专业:港口、海岸及近海工程

    所在系(所、中心):工程学院海洋工程系

    通讯地址:青岛市松岭路238号中国海洋大学工程学院92号信箱

    办公室电话:0532-66783717

    传真:0532-66781550


    主要学历:

    [1] 1995.09–1999.07,大连理工大学,港口航道及治河工程2020最新送彩金的网站-2020年白菜网领体验金,工学学士

    [2] 2002.09–2007.102020最新送彩金的网站-2020年白菜网领体验金,大连理工大学,港口、海岸及近海工程,工学博士(硕-博连读)

      

    学术经历:

    [1] 2007.10–2010.12,中国海洋大学2020最新送彩金的网站-2020年白菜网领体验金,工程学院海洋工程系,讲师

    [2] 2011.01–2013.12,中国海洋大学,工程学院海洋工程系,副教授

    [3] 2014.01–今,    中国海洋大学,工程学院海洋工程系2020最新送彩金的网站-2020年白菜网领体验金,教授

      

    研究方向:

    [1] 海岸结构物水动力分析与设计方法

    [2] 浮式结构物近场波浪干涉与共振

    [3] 液舱晃荡问题

    [4] 波浪与结构物相互作用的边界元分析

      

    讲授课程:

    [1] 本科生:海岸工程学

    [2] 研究生:海洋结构设计、论文写作与学术规范

      

    科研项目:

    [1] 2018/01–2022/122020最新送彩金的网站-2020年白菜网领体验金,新型海岸结构物水动力分析与设计方法,国家杰出青年科学基金

    [2] 2016/10–2017/09,海岸工程研究领域青年科学家论坛,国家自然科学基金应急管理项目

    [3] 2013/01–2016/12,近岸反射对半潜式Jarlan型开孔防波堤水动力特性的影响机理研究,国家自然科学基金面上项目

    [4] 2015/05–2015/10,透空式进海路上部结构波浪力模拟试验研究,中石化石油工程设计有限公司委托项目

      

    学术兼职:

    [1] 中国海洋湖沼学会理事

    [2] 水动力学研究与进展、Applied Ocean Research2020最新送彩金的网站-2020年白菜网领体验金、Journal of Hydrodynamics等期刊编委

      

    科研奖励与学术荣誉:

    [1] 2005年,开孔沉箱结构波浪力计算方法的研究与应用,教育部科技进步一等奖

    [2] 2007年,开孔消浪沉箱结构波浪力计算方法的研究及应用,国家科技进步二等奖

    [3] 2013年,新型消能式海上建筑物水动力分析方法与设计理论研究,教育部自然科学二等奖

    [4] 2016年,海洋结构物浪致失稳破坏机理及安全防护研究,海洋工程科学技术一等奖

    [5] 2016年,滩浅海新型构筑物及安全环保关键技术,教育部技术发明一等奖

    [6] 2010年,全国百篇优秀博士论文提名奖

    [7] 2013年,教育部“新世纪优秀人才支持计划”

    [8] 2014年2020最新送彩金的网站-2020年白菜网领体验金,国家“万人计划”青年拔尖人才

    [9] 2015年,教育部长江学者(青年学者)

    [10] 2015年2020最新送彩金的网站-2020年白菜网领体验金,山东省青年科技奖

    [11] 2017年2020最新送彩金的网站-2020年白菜网领体验金,中国海洋大学第十七届优秀硕士学位论文指导奖

      

    代表性论文:

    [1] Liu Yong, Li Hua-jun. Iterative multi-domain BEM solution for water wave reflection by perforated caisson breakwaters. Engineering Analysis with Boundary Elements, 2017, 77: 70–80.

    [2] Liu Yong, Li Hua-jun, Zhu Lei. Bragg reflection of water waves by multiple submerged semi-circular breakwaters. Applied Ocean Research, 2016, 56: 67–78.

    [3] Liu Yong, Li Yu-cheng, Teng Bin. Interaction between oblique waves and perforated caisson breakwaters with perforated partition walls. European Journal of Mechanics B/Fluids, 2016, 56: 143–155.

    [4] Liu Yong, Li Hua-jun. Oblique flexural-gravity wave scattering by a submerged semi-circular ridge. Geophysical and Astrophysical Fluid Dynamics, 2016, 110(3): 259–273.

    [5] Liu Yong, Li Yu-cheng. Predictive formulas in terms of Keulegan-Carpenter numbers for the resistance coefficients of perforated walls in Jarlan-type caissons. Ocean Engineering, 2016, 114: 101–114.

    [6] Liu Yong, Faraci Carla. Analysis of orthogonal wave reflection by a caisson with open front chamber filled with sloping rubble mound. Coastal Engineering, 2014, 91: 151–163.

    [7] Liu Yong, Li Hua-jun. Analysis of wave performance through pile-rock breakwaters. Proc IMechE Part M: Journal of Engineering for the Maritime Environment, 2014, 228(3): 284–292.

    [8] Liu Yong, Li Hua-jun. Wave scattering by dual submerged horizontal porous plates: Further results. Ocean Engineering, 2014, 81: 158–163.

    [9] Liu Yong, Li Hua-jun. A new semi-analytical solution for gap resonance between twin rectangular boxes. Proc IMechE Part M: Journal of Engineering for the Maritime Environment, 2014, 228(1): 3–16.

    [10] Liu Yong, Xie Lu-qiong, Zhang Zhe-han. Wave motion over a submerged Jarlan-type perforated breakwater. Acta Oceanologica Sinica, 2014, 33(5): 96–102.

    [11] Liu Yong, Li Hua-jun. Analysis of oblique wave interaction with a submerged perforated semicircular breakwater. Journal of Engineering Mathematics, 2013, 83(1): 23–36.

    [12] Liu Yong, Li Hua-jun. Wave reflection and transmission by porous breakwaters: A new analytical solution. Coastal Engineering, 2013, 78, 46–52.

    [13] Liu Yong, Li Yu-cheng, Teng Bin. Interaction between obliquely incident waves and an infinite array of multi-chamber perforated caissons. Journal of Engineering Mathematics, 2012, 74(1): 1–18.

    [14] Liu Yong, Li Hua-jun, Li Yu-cheng. A new analytical solution for wave scattering by a submerged horizontal porous plate with finite thickness. Ocean Engineering, 2012, 42: 83–92.

    [15] Liu Yong, Li Hua-jun. Analysis of wave interaction with submerged perforated semi-circular breakwaters through multipole method. Applied Ocean Research, 2012, 34: 164–172.

    [16] Liu Yong, Li Hua-jun, Li Yu-cheng, He Shi-yan. A new approximate analytic solution for water wave scattering by a submerged horizontal porous disk. Applied Ocean Research, 2011, 33(4): 286–296.

    [17] Liu Yong, Li Yu-cheng. Wave interaction with a wave absorbing double curtain-wall breakwater. Ocean Engineering, 2011, 38(10): 1237–1245.

    [18] Liu Yong, Li Yu-cheng. An alternative analytical solution for water-wave motion over a submerged horizontal porous plate. Journal of Engineering Mathematics, 2011, 69(4): 385–400.

    [19] Liu Yong, Li Yu-cheng, Teng Bin, Jiang Jun-jie, Ma Bao-lian. Total horizontal and vertical forces of irregular waves on partially perforated caisson breakwaters. Coastal Engineering, 2008, 55(6): 537–552.

    [20] Liu Yong, Li Yu-cheng, Teng Bin, Dong Sheng. Wave motion over a submerged breakwater with an upper horizontal porous plate and a lower horizontal solid plate. Ocean Engineering, 2008, 35(16): 1588–1596.

      

      

    Liu Yong

    Title: Professor

    Department: Ocean Engineering

    Address: College of Engineering, Ocean University of China

    No. 238 Song-ling Road, Qingdao, P. R. China, 266100

    Office Phone: 86-532-66783717

    E-mail: liuyong@ouc.edu.cn

      

    Education

    [1] 2002.9–2007.10, Dalian University of Technology, Ph.D. in Port, Coastal and offshore Engineering

    [2] 1995.9–1999.7, Dalian University of Technology, Eng. B. in Port Channel and River Management Engineering

      

    Work Experience

    [1] 2014.01–Now, Professor, College of Engineering, Ocean University of China

    [2] 2011.01–2013.12, Associate Professor, College of Engineering, Ocean University of China

    [3] 2007.10–2010.12, Lecturer, College of Engineering, Ocean University of China

      

    Research Interests

    [1] Hydrodynamic analysis and design methods for coastal structures

    [2] Wave interaction with floating structures

    [3] Sloshing in water tanks

    [4] Boundary element method for wave-structure interactions

      

    Selected Publications

    [1] Liu Yong, Li Hua-jun. Iterative multi-domain BEM solution for water wave reflection by perforated caisson breakwaters. Engineering Analysis with Boundary Elements, 2017, 77: 70–80.

    [2] Liu Yong, Li Hua-jun, Zhu Lei. Bragg reflection of water waves by multiple submerged semi-circular breakwaters. Applied Ocean Research, 2016, 56: 67–78.

    [3] Liu Yong, Li Yu-cheng, Teng Bin. Interaction between oblique waves and perforated caisson breakwaters with perforated partition walls. European Journal of Mechanics B/Fluids, 2016, 56: 143–155.

    [4] Liu Yong, Li Hua-jun. Oblique flexural-gravity wave scattering by a submerged semi-circular ridge. Geophysical and Astrophysical Fluid Dynamics, 2016, 110(3): 259–273.

    [5] Liu Yong, Li Yu-cheng. Predictive formulas in terms of Keulegan-Carpenter numbers for the resistance coefficients of perforated walls in Jarlan-type caissons. Ocean Engineering, 2016, 114: 101–114.

    [6] Liu Yong, Faraci Carla. Analysis of orthogonal wave reflection by a caisson with open front chamber filled with sloping rubble mound. Coastal Engineering, 2014, 91: 151–163.

    [7] Liu Yong, Li Hua-jun. Analysis of wave performance through pile-rock breakwaters. Proc IMechE Part M: Journal of Engineering for the Maritime Environment, 2014, 228(3): 284–292.

    [8] Liu Yong, Li Hua-jun. Wave scattering by dual submerged horizontal porous plates: Further results. Ocean Engineering, 2014, 81: 158–163.

    [9] Liu Yong, Li Hua-jun. A new semi-analytical solution for gap resonance between twin rectangular boxes. Proc IMechE Part M: Journal of Engineering for the Maritime Environment, 2014, 228(1): 3–16.

    [10] Liu Yong, Xie Lu-qiong, Zhang Zhe-han. Wave motion over a submerged Jarlan-type perforated breakwater. Acta Oceanologica Sinica, 2014, 33(5): 96–102.

    [11] Liu Yong, Li Hua-jun. Analysis of oblique wave interaction with a submerged perforated semicircular breakwater. Journal of Engineering Mathematics, 2013, 83(1): 23–36.

    [12] Liu Yong, Li Hua-jun. Wave reflection and transmission by porous breakwaters: A new analytical solution. Coastal Engineering, 2013, 78, 46–52.

    [13] Liu Yong, Li Yu-cheng, Teng Bin. Interaction between obliquely incident waves and an infinite array of multi-chamber perforated caissons. Journal of Engineering Mathematics, 2012, 74(1): 1–18.

    [14] Liu Yong, Li Hua-jun, Li Yu-cheng. A new analytical solution for wave scattering by a submerged horizontal porous plate with finite thickness. Ocean Engineering, 2012, 42: 83–92.

    [15] Liu Yong, Li Hua-jun. Analysis of wave interaction with submerged perforated semi-circular breakwaters through multipole method. Applied Ocean Research, 2012, 34: 164–172.

    [16] Liu Yong, Li Hua-jun, Li Yu-cheng, He Shi-yan. A new approximate analytic solution for water wave scattering by a submerged horizontal porous disk. Applied Ocean Research, 2011, 33(4): 286–296.

    [17] Liu Yong, Li Yu-cheng. Wave interaction with a wave absorbing double curtain-wall breakwater. Ocean Engineering, 2011, 38(10): 1237–1245.

    [18] Liu Yong, Li Yu-cheng. An alternative analytical solution for water-wave motion over a submerged horizontal porous plate. Journal of Engineering Mathematics, 2011, 69(4): 385–400.

    [19] Liu Yong, Li Yu-cheng, Teng Bin, Jiang Jun-jie, Ma Bao-lian. Total horizontal and vertical forces of irregular waves on partially perforated caisson breakwaters. Coastal Engineering, 2008, 55(6): 537–552.

    Liu Yong, Li Yu-cheng, Teng Bin, Dong Sheng. Wave motion over a submerged breakwater with an upper horizontal porous plate and a lower horizontal solid plate. Ocean Engineering, 2008, 35(16): 1588–1596. 


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