任冰

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任冰教授,博士生导师,主要从事海洋动力因素与结构物相互作用的物理模型和数值模型研究工作。现任海洋工程研究所副所长,兼任International Journal of Ocean and Coastal Engineering期刊编委,《海洋工程》、《水动力学研究与进展》编委,中国海洋学会军事海洋学专业委员会委员,国际水利与环境工程学会(IAHR)会员。2007年入选教育部新世纪优秀人才支持计划。在计算水动力学新算法、实验室物理模拟新技术、高新量测系统集成技术方面开展了一系列研究工作。研究成果获高等学校自然科学奖二等奖、海洋工程科学技术奖二等奖。在海洋和海岸工程领域有影响力的国际期刊和国内期刊上发表论文100余篇。


工作经历:

1997.7-1998.8 大连理工大学,助教

1997.7-2004.12 大连理工大学,讲师

2005.1-2011.11 大连理工大学,副教授

2008.1-2009.1 西澳大学,访问学者

2009.12-至今 大连理工大学 海洋工程研究所,副所长

2011.12-至今 大连理工大学,教授

2015.1-2019.8 大连理工大学 海岸和近海工程国家重点实验室,副主任

研究方向:

海洋空间资源的开发利用

海洋环境荷载作用下的流固耦合问题

海洋动力环境模拟的数值算法及应用

海岸和海洋工程的物模实验研究

获奖和学术荣誉:

精细模拟波浪与多离散体耦合作用的数值仿真试验平台海洋工程科学技术奖,  2017年

强非线性自由表面流的数值模型和应用海洋工程科学技术奖,2013

波浪-结构-基床的强非线性耦合作用研究, 教育部, 自然科学奖2012年

入选“教育部新世纪优秀人才支持计划”,2007


主持科研项目:

国家自然科学基金重点项目,波流作用下水下悬浮隧道的复杂响应特性与减振控制研究(52031002),在研

国家自然科学基金面上项目,海底电缆悬跨段大幅振动与涡流场耦合作用的精细模拟(51979028),已结题

韩国HD工程建设公司,韩国Ulleung海上机场建设项目物理模型试验研究,已结题

中交第一航务工程勘察设计院有限公司,秘鲁圣尼古拉斯新建码头工程模型试验研究,已结题

国家自然科学基金委员会面上项目,珊瑚礁地貌改变对海洋动力因素演变过程的影响机制研究(51679032),已结题

中国电力工程顾问集团中南电力设计院有限公司,海底电缆振动仿真模型及试验研究,已结题

韩国Daeyang工程公司,韩国Pohang新港涌浪改进物理模型实验,已结题

国家自然科学基金面上项目波浪作用下斜坡堤护面块体失稳和破坏过程的精细模拟(51179030),已结题

韩国SK建设株式会社,韩国GamCheon港提高静稳度外围设施建造工程物理模型试验,已结题

国家自然科学基金面上项目,海上结构物的水弹性冲击问题研究(50879009),已结题

教育部新世纪优秀人才支持计划,近海波浪同船舶以及海上建筑物耦合作用研究(NCET-07-0135),已结题

教育部高等院校博士点基金,多向不规则波对透空式建筑物冲击作用的研究(20060141002),已结题

韩国SK建设株式会社,韩国Daesan港防波堤工程模型试验研究,已结题

国家自然科学基金委员会青年基金,波浪冲击过程流场变化特性研究(50409014),已结题

辽宁省科技厅科学技术基金资助项目,多向不规则波对海洋平台的冲击作用研究(20041075),已结题

国家科技部国家高技术研究发展计划(863计划)青年基金,海洋平台波浪冲击过程流场变化特性研究(2004AA616250),已结题

中国博士后科学基金会第34批中国博士后科学基金,随机波浪对透空式建筑物上部结构冲击作用的数值模拟(2003034046),已结题

 

代表性论著:  


        Zhu,J.,Ren, B.*,Dong,P.,Chen,W.,Vortex-induced vibrations of a free spanning submarine power cable,Ocean Engineering,2023, 272(113792)

        Zhu,J.,Ren, B.*,Dong,P.,Chen,W.,Wang,Y.,Natural vibration characteristics of short-span submarine power cables with bending stiffness and sag,Marine Structures, 2022, 87(103328). SCIE.

        Wang,C.,Ren, B.*,Lin,P.,A coupled flow and beam model for fluid–slender body interaction,Journal of Fluids and Structures, 2022, 115(103781)

        WenH., Ren, B.*, Dong P., Zhu G., 2020, Numerical analysis of wave-induced current within the inhomogeneous coral reef using a refined SPH model. Coastal Engineering, Coastal Engineering 156(2020) 103616.

        Wen, H., Ren, B.*, Zhu G., Wang G., 2020, SPH evaluation of the hydrodynamic consequence induced by reef degradation, Wave Motion 96(2020) 102579.

        王永学,任冰海洋动力环境模拟数值算法及应用,科学出版社,2019.

        Wen, H., Ren B.*, Zhang X., Yu X., 2019, SPH Modeling of Wave Transformation over a Coral Reef with Seawall. Journal of Waterway, Port, Coastal and Ocean Engineering-ASCE, 145(1):     04018026.

        Zhu, G., Ren, B.*, Wen H., Wang Y., Wang C., 2019, Analytical Study of Wave Setup over Permeable Coral Reef, Applied Ocean Research, 90 (2019) 101859.

        Zhu, G., Ren, B.*, Wang Y., Wang C., 2019Experimental research of wave transformation on porous coral reef. OMAE2019-96582. June 9-14, Glasgow, Scotland.

        Wen, H., Ren, B.*, Yu X., 2018, An improved SPH model for turbulent hydrodynamics of a 2D oscillating water chamber. Ocean Engineering, 150:152-166.  

        Guo, W., Jiang, M, Li X., Ren, B.*,2018Using a genetic algorithm to improve oil spill prediction. Marin Pollution Bulletin, Vol. 135386-396.

        He, M., Xu, W.*, Gao, X., Ren, B.*, 2018The layout of submerged horizontal plate breakwater (SHPB) with respect to the tidal-level variation. Coast Engineering Journal, 60(3): 280-298.  

        Wen, H., Ren, B.*, Wang G, Zhao Y.,2018., Numerical simulation of wave breaking over a submerged step with SPH method. International Journal of Ocean and Coastal Engineering, Vol. 1, No. 2 (2018) 1840005.

        He, M., Xu, W.* and Gao, X., Ren, B.*,2018., SPH simulation of wave scattering by a heaving submerged horizontal plate. International Journal of Ocean and Coastal Engineering, Vol. 1, No. 2 (2018) 1840004.

        朱干城,任冰*,王永学,邱大洪,直墙结构物对台礁礁坪上规则波传播特性的影响,中国科学:技术科学,2018, 48, 1-11.

        Zhu, G., Xia, Y., Ren, B.*, Wang,G.,2018.,The Influence of Vertical-wall Structure on Monochromatic Wave Propagation Characteristics over the Deep-sea Coral Reefs, Sapporo, ISOPE 2018, Japan, June 10-15, 2018.

        Zhang, X., Ren, B.*, Wang, Y., Wen, H.,2018., Numerical simulation of wave transformation over deep-sea platform reef using SPH method, OMAE 2018-77325, June 17-22, 2018, Madrid, Spain.

        温鸿杰,张向,任冰*,王永学,规则波在岛礁地形上传播的SPH模拟,科学通报, 2018, 63(9): 865-874.

        任冰*,唐洁,王国玉,朱干城,规则波在岛礁地形上传播变化特性的试验,科学通报,2018Vol.63No.5~6590-600.

        Wen, H., Ren, B.*,2018., A Non-Reflective Spectral Wave Maker for SPH Modeling of Nonlinear Wave Motion. Wave Motion, 2018, 79112-128.

        Wen, H., Ren, B.*, Yu, X.,2018., An improved SPH model for turbulent hydrodynamics of a 2D oscillating water chamber. Ocean Engineering, 150:152-166.

        Wen, H., Ren, B.*, Wang, G.,2018., 3D SPH porous flow model for wave interaction with permeable structures. Applied Ocean Research, 75, 223-233.

        Ren, B.*, He, M., Li, Y., Dong, P.,2017,Application of smoothed particle hydrodynamics for modeling the wave-moored floating breakwater interaction, Applied Ocean Research, 67 (2017): 277–290.

        Li, Y., He, M., Ren, B.*, Wang, G.,2017, Numerical simulation of wave interaction with a hinged multi-module floating structures, OMAE 2017-61079, June 25-30, 2017, Trondheim, Norway.

        Ren, B.*, Liu, M., Li, X., Wang, Y.,2016, Experimental Investigation of Wave Slamming on An Open Structure Supported Elastically, China Ocean Engineering 30(2016), No.6: 967-978.

        Wen, H., Ren, B.*, Dong, P., Wang, Y.,2016, A SPH numerical wave basin for modeling wave-structure interactions, Applied Ocean Research, 59(2016): 366–377.

        He, M., Ren, B.*, Qiu, D.*, 2016., Experimental study of nonlinear behaviors of a free-floating body in waves. China Ocean Engineering, 30(3):421-430.

        Wang, G.*, Ren, B.*, Wang, Y.,2016, Experimental study on hydrodynamic performance of arc plate breakwater. Ocean Engineering,111(2016):593-601.

        Ren, B.*, Wen, H., Dong, P., Wang, Y.,2016, Improved SPH simulation of wave motions and turbulent flows through porous media. Coastal Engineering, 107 (2016), 14-27.

        任冰*, 李晨光, 蒋梅荣, 王国玉,王永学. 弹性变形对三维弹性液箱内晃荡波面的影响. 科学通报, 2016.

        Ren, B.*, Chen, C., Dong, P., Li, Y.,2016, SPH modeling of wave interaction with partially perforated caissons. Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference, Rhodes, Greece, June 26-July 1, 2016, 198-205.

        Tang, J., Ren, B.*, Wang, G.,2016., Experimental investigation of the Three-dimensional sloshing in a square-base tank with elasticity. Proceedings of the Twelfth (2016) Pacific-Asia Offshore Mechanics Symposium, Gold Coast, Australia, October 4-7, 2016 , 205-212.

        Chen, C., Ren, B.*, Wen, H., Numerical simulation of wave interaction with perforated caissons using SPH. Meshfree Methods in Computational Hydraulics, 33-50.

        Li, C.*, Jiang, M., Ren, B.*, Wang, Y.2015.,Experimental investigation into the effects of fluid-structure interaction on the sloshing waves in 3D elastic tanks. Proceeding of 36th IAHR World Congress. IAHR 2015, 28 June–3 July, 2015, The Hague, the Netherlands.

        Jiang, M., Ren, B.*, Wang, G.,2015., Laboratory study on the hydrodynamic and structural characteristic of violent sloshing in elastic tanks. Ships and Offshore Structures, 2015,10(5),533-544.

        Ren, B.*, He, M., Dong, P., Wen, H.,2015., Nonlinear simulations of wave-induced motions of a freely floating body using WCSPH method. Applied Ocean Research, 50, 1-12.

        Ren, B.*, Jin, Z., Gao, R., Wang, Y., Xu, Z.,2014., SPH-DEM modeling of the hydraulic stability of 2D blocks on a slope. Journal of Waterway, Port, Coastal, and Ocean Engineering, 140(6), 04014022: 1-12.

        Ren, B.*, Wen, H., Dong, P., Wang, Y.,2014., Numerical simulation of wave interaction with porous structures using an improved smoothed particle hydrodynamic method. Coastal Engineering, 88(2014): 88-100.

        Jiang, M., Ren, B.*, Wang, G., Wang, Y.,2014., Laboratory investigation of the hydroelastic effect on liquid sloshing in rectangular tanks. Journal of Hydrodynamics, Ser. B, 26(5): 751-761.

        Jiang, M., Ren, B.*, Wang, G., Wang, Y.,2014., Laboratory study on the hydrodynamic and structural characteristic of violent sloshing in elastic tanks.The 7th International Conference on the Thin-Walled Structures, Sep.28- Oct. 2, 2014, Busan, Korea, ICTWS2014-0801: 1-10.

        Wen, H., Ren, B.*,2014., 3D numerical wave basin based on parallelized SPH method. OMAE 2014, June 8-13, 2014, San Francisco, California, USA.

        He, M., Ren, B.*, Jiang, F., Ma, C.,2013, Simulation of dynamic coupling between waves and a free-floating rectangular box by smoothed particle hydrodynamics. OMAE2013, June 9-14, 2013, Nantes, France, OMAE2013-10286.

        Ding, Z., Wang, G., Ren, B.*,2012, Three dimensional numerical simulation of wave slamming on an open structure. Journal of Hydrodynamics, 24(4):526-534.

        Cheng, X., Wang, Y., Ren, B.*, Wang, G.,2012, Numerical study of hydrodynamic forces on a submarine piggyback pipeline under wave action. The 31st International Conference on Ocean, Offshore and Arctic Engineering, July 1-6, 2012, Rio de Janeiro, Brazil, OMAE2012-83214.

        Li, X., Ren, B.*, Wang, G., Wang, Y.,2011, Numerical simulation of hydrodynamic characteristic on arc crown wall using VOF method based on BFC. Journal of Hydrodynamics, 23(6): 767-776.

        Gao, R., Ren, B.*, Wang, G., Wang, Y.,2010, SPH Model of Solitary Waves Shoaling on a Mild Sloping Beach, Proceedings of the Twentieth (2010) International Offshore and Polar Engineering Conference, Beijing, China, June 20 25, 2010. 590-595.

        

 

Educational Experience

1998.9 2003.6

  • 大连理工大学
  • 港口海岸及近海工程
  • Doctoral Degree

1994.1 1997.1

  • 大连理工大学
  • 海岸工程
  • Master's Degree

1990.9 1994.7

  • 大连理工大学
  • 土木
  • Bachelor's Degree

Work Experience

1997.7 Now
  • 建设工程学部水利工程学院

Social Affiliations

Research FocusMore>>

  • 海岸和海洋工程的物模实验研究
  • 海洋动力环境模拟的数值算法及应用
  • 海洋环境荷载作用下的流固耦合问题