1、 著作
[1] 《海洋空间开发利用规划设计原理与方法》,王永学、任冰,科学出版社,2022
[2] 《海洋动力环境模拟数值算法及应用》,王永学、任冰,科学出版社,2019
2、期刊论文
[1] Gao S, Ren B*, Lin P, Dong P. A WCSPH-MSDEM model for combined rolling and sliding motions of complex-shaped blocks in an unsteady flow. Journal of Computational Physics. 2025 May 14:114083.
[2] Chen W, Zhang H, Zhu G, Ren B*, Lin P. Dynamic similarity study of the truncated model test for submerged floating tunnels under wave actions. Marine Structures. 2025 Apr 15;101:103777.
[3] Zhao H, Wang C, Zhu J, Dong P, Ren B*, Lin P. Three-dimensional numerical simulation of vortex-induced vibration of a free spanning submarine cable in uniform currents. Applied Ocean Research. 2024 Dec 1;153:104268.
[4] Zhu G, Ren B*, Wen H, Lin P. Numerical simulation on the influence of artificial island on reef hydrodynamics. Applied Ocean Research. 2024 Dec 1;153:104266.
[5] Tang L, Ren B, Lin P*. Numerical modeling of turbulent air-water mixture flows in spilling breaking waves. Applied Ocean Research. 2024 Jul 1;148:104028.
[6] Zhu G, Ren B.*, Lin P, Dong P.. Numerical study of wave-induced flow and wave set-up on a platform reef with steep slope. Applied Ocean Research, 2024, 148: 104030.
[7] Wang C, Lin P, Ren B.*. A numerical model for simulation of two-phase flows interaction with flexible slender bodies. Physics of Fluids, 2023, 35(12).
[8] Chen W, Wang C, Ren B.*, Lin P.. Experimental study of the motion characteristics of a twin-circular submerged floating tunnel under wave actions. Ocean Engineering, 2023, 288: 116114.
[9] Zhao H, Ding H, Wang C, Li K, Wang G, Ren B.. Vortex-induced vibration at low Reynolds numbers: Vortex shedding modes transitions. Ocean Engineering, 2023, 288: 115931.
[10] 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, 103328 (2023).
[11] Zhu J., Ren B.*, Dong P., Chen W., Vortex-induced vibrations of a free spanning submarine power cable. Ocean Engineering, 113792 (2023).
[12] 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.
[13] Zhu G., Ren B.*, Dong, P., Wang, Y., Chen, W., Experimental investigation on the infragravity wave on different reef systems under irregular wave action. Ocean Engineering, 226(C2): 108851(2021).
[14] Wen H., Ren B.*, Dong P., Zhu G., Numerical analysis of wave-induced current within the inhomogeneous coral reef using a refined SPH model. Coastal Engineering 156: 103616(2020).
[15] Chen J., Wen H.*, Wang Y., Ren B., Experimental investigation of an annular sector OWC device incorporated into a dual cylindrical caisson breakwater. Energy, 2020, 211: 118681.
[16] Wen H., Ren B.*, Zhu G., Wang G., SPH evaluation of the hydrodynamic consequence induced by reef degradation, Wave Motion 96(2020) 102579, 1-20
[17] Zhu G., Ren B.*, Wen H., Wang Y., Wang C., Analytical study of wave setup over permeable coral reef. Applied Ocean Research, 90(2019):101859.
[18] Wen H., Ren B.*, Zhang X., Yu X., SPH modeling of wave transformation over a coral reef with seawall. Journal of Waterway Port Coastal and Ocean Engineering-ASCE, 2019, 145(1):04018026.
[19] Wen H., Ren B.*, Yu X., An improved SPH model for turbulent hydrodynamics of a 2D oscillating. Ocean Engineering, 150(2018): 152-166.
[20] Wen H., Ren B.*, Wang G., 3D SPH porous flow model for wave interaction with permeable structures. Applied Ocean Research, 75(2018):223-233.
[21] Wen H., Ren B.*. A Non-Reflective spectral wave maker for SPH modeling of nonlinear wave motion. Wave Motion, 2018, 79:112-128
[22] Guo W., Jiang M., Li X., Ren B.*, Using a genetic algorithm to improve oil spill prediction. Marin Pollution Bulletin, 2018, 135, 386-396.
[23] Wen H., Ren B.*, Wang G., Zhao Y., Numerical simulation of wave breaking over a submerged step with SPH method. International Journal of Ocean and Coastal Engineering, 2 (2018) 1840005.
[24] He, M., Xu, W.*, Gao, X., Ren B., SPH simulation of wave scattering by a heaving submerged horizontal plate. International Journal of Ocean and Coastal Engineering, 2 (2018) 1840004.
[25] He, M., Xu, W.*, Gao, X., Ren B., The layout of submerged horizontal plate breakwater (SHPB) with respect to the tidal-level variation. Coast Engineering Journal, 2018, 60(3): 280-298.
[26] Ren B.*, He M., Li Y.,Wen H., Application of smoothed particle hydrodynamics for modeling the wave-moored floating breakwater interaction. Applied Ocean Research, 67(2017):277–290.
[27] Wang G., Ren B.*, Wang Y., Experimental study on hydrodynamic performance of arc plate breakwater. Ocean Engineering,111(2016):593-601.
[28] Ren B.*, Wen H., Dong P., Wang Y., Improved SPH simulation of wave motions and turbulent flows through porous media. Coastal Engineering, 107 (2016), 14-27.
[29] Wen H., Ren B.*, Dong P., Wang Y., A SPH numerical wave basin for modelling wave-structure interactions, Applied Ocean Research, 59(2016): 366–377.
[30] Ren B.*, He M., Dong P., Wen H., Nonlinear simulations of wave-induced motions of a freely floating body using WCSPH method. Applied Ocean Research, 50(2015): 1-12.
[31] Jiang M., Ren B.*, Wang G., Laboratory study on the hydrodynamic and structural characteristic of violent sloshing in elastic tanks. Ships and Offshore Structures, 2015,10(5),533-544.
[32] Jiang M., Ren B.*, Wang G., Laboratory study on the hydrodynamic and structural characteristic of violent sloshing in elastic tanks. Ships and Offshore Structures, 2015,10(5),533-544.
[33] Ren B.*, Wen H., Dong P., Wang Y., Numerical simulation of wave interaction with porous structures using an improved smoothed particle hydrodynamic method. Coastal Engineering, 88(2014): 88-10
[34] Ren B.*, Jin Z., Gao R., Wang Y., Xu Z., SPH-DEM modeling of the hydraulic stability of 2D blocks on a slope. Journal of Waterway, Port, Coastal, and Ocean Engineering-ASCE, 2014, 140(6), 04014022: 1-12.
[35] Gao R., Ren B.*, Wang G., Wang Y., Numerical modelling of regular wave slamming on subface of open-piled structures with the SPH method. Applied Ocean Research, 34(2012): 173-186
[36] Ding Z., Ren B.*, Wang Y., Ren X., Experimental study of unidirectional irregular wave slamming on the threedimensional structure in the splashzone. Ocean Engineering, 2008, 35(16): 1637-1646.
[37] Ren B.*, Wang Y., Laboratory study of random wave slamming on a piled wharf with different shore connecting structures. Coastal Engineering, 52(2005): 463-471.
[38] Ren B.*, Wang Y., Numerical simulation of random wave slamming on the structure in the splash zone. Ocean Engineering, 2004, 31(5-6): 547-560.
[39] Zhang H., Wang Y., Ren B., Application of neural network on wave impact force prediction. International Symposium on Neural Networks (ISSN 2004),2004.08,Advances in Neural Networks, PT 2: 854-859.
[40] Ren B.*, Wang Y., Experimental study of irregular wave impact on the structures in splash zone. Ocean Engineering, 2003, 30(18): 2363-2377.
[41] 赵海栋,王超,任冰,陈卫东,王国玉. 基于 FDM-VBF 的低雷诺数串列双圆柱绕流数值模拟. 大连理工大学学报, 2022, 63 (3): 292-298.
[42] 赵宇蒙, 温鸿杰, 任冰*, 王超. 低雷诺数下圆柱强迫振动特性光滑粒子流体动力学模拟. 海洋工程, 2021, 39(4): 134-143.
[43] 王超,秦世杰,于明,任冰*. 长周期波作用下透空式防波堤的防浪性能研究, 港工技术, 2019, 56: 20-24.
[44] 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.
[45] 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,2018, 63:5~6,590-600
[46] 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.
[47] 温鸿杰,张向,任冰*,王国玉,随机波在珊瑚礁地形上传播变形的 SPH 模拟,水动力学研究与进展,2018.11,Vol.33, No.6, 706-713.
[48] Ren B.*, Liu M., Li X., Wang Y., Experimental Investigation of Wave Slamming on An Open Structure Supported Elastically, China Ocean Engineering 30(2016), No.6: 967-978.
[49] 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.
[50] 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, 61(4-5): 543-552.
[51] 刘明,任冰*,支撑刚度对水平板波浪冲击压力影响,海洋工程,2015,33(5),42-50.
[52] Jiang M., Ren B.*, Wang G., Wang Y., Laboratory investigation of the hydroelastic effect on liquid sloshing in rectangular tanks. Journal of Hydrodynamics, Ser. B, 2014, 26(5): 751-761.
[53] 崔焱, 姜峰, 任冰*. 波浪作用下斜坡上护面块体内部应力分布数值模拟. 海洋工程, 2014, 32(5): 78-84.
[54] 宋子路, 任冰*, 孙见峰, 刘明, 王国玉. 弹性支撑水平板上的波浪冲击压力试验研究. 水动力学研究与进展, 2014, 29(4): 435-443.
[55] 蒋梅荣, 任冰*, 李小超, 王永学. 有限液深下弹性侧壁液舱内晃荡共振特性实验研究. 大理工大学学报, 2014, 54(5): 558-567.
[56] 孙见峰, 任冰*, 宋子路, 王永学. 波浪对弹性支撑结构物冲击作用试验研究. 大连理工大学学报, 2014, 54(2): 222-227.
[57] 蒋梅荣, 任冰*, 温鸿杰, 王永学. 弹性液舱内液体晃荡实验研究. 海洋工程, 2013, 31(5): 1-10.
[58] 任冰*, 金钊, 高睿, 贺铭, 王永学. 波浪与斜坡堤护面块体相互作用的 SPH-DEM 数值模拟. 大连理工大学学报, 2013, 53(2): 241-248.
[59] 任冰*, 叶晓文, 高睿, 王国玉, 王永学. 波浪与多孔介质结构相互作用的 SPH 模拟. 海洋工程, 2012, 30(2): 46-53.
[60] 任冰*, 高睿, 金钊, 王国玉, 王永学. 波浪对透空式结构物冲击作用的光滑粒子流体动力学数值模拟. 海洋学报, 2012, 34(1): 163-177.
[61] 张秋艳, 任冰*, 蒋梅荣. 二维矩形弹性液舱内液体晃荡数值模拟研究. 船海工程, 2012, 41(4): 11-20.
[62] 李雪艳, 任冰*, 王国玉, 王永学. 基于 BFC-VOF 方法的弧形防浪墙水动力数值模拟. 水道港口, 2011, 32(4): 270-275.
[63] Ding Z., Wang G.*, Ren B., Three-dimensional numerical simulation of wave slamming on an open structure. Journal of Hydrodynamics, 2012, 24(4):526-534.
[64] Li X., Ren B.*, Wang G., Wang Y., Numerical simulation of hydrodynamic characteristic on arc crown wall using VOF method based on BFC. Journal of Hydrodynamics, 2011, 23(6): 767-776.
[65] 郭保臣, 任冰*, 刘明. 波浪冲击作用下海洋结构物的动力响应. 水道港口, 2011, 32(3): 168-172.
[66] 任冰*, 李雪艳, 王永学. 基于贴体网格的 VOF 方法数模流场研究. 计算力学学报, 2011, 28(6): 872-878.
[67] 高睿, 任冰*, 王国玉, 王永学. 孤立波浅化过程的 SPH 数值模拟. 水动力学研究与进展, A 辑, 2010, 25(5): 620-629.
[68] 韩朋, 任冰*, 李雪临, 王永学. 基于 VOF 方法的不规则波数值浪水槽的阻尼消波研究. 水道港口, 2009, 30(1): 9-13.
[69] Ren B.*, Li X., Wang Y., An irregular wave maker of active absorption with VOF method. China Ocean Engineering, 2008.12, 22, 4, 1-12.
[70] 丁兆强, 任冰*, 王永学, 任效忠, 随机波浪对浪溅区三维结构物冲击作用, 大连理工大学学报, 2008.11, 48(6):904-911.
[71] Ren B.*, Li X., Wang Y., Experimental investigation of the instantaneous properties of wave slamming on the plate. China Ocean Engineering, 2007, 21(3): 533-540.
[72] 任冰*, 李雪临, 王永学. 波浪冲击过程流场变化特性实验研究. 海洋工程, 2006, 24(4): 68-74.
[73] 黄小华, 王永学, 任冰. 波浪变态模型试验变率影响的计算机仿真研究, 中国造船, 2005, 46(增刊): 153-161.
[74] Ren B.*, Wang Y. Impact pressure of incident regular waves and irregular waves on the surface of open-piled structures. China Ocean Engineering, 2004, 18(1): 35-46.
[75] 张红玉, 王永学, 任冰. 人工神经网络在计算波浪冲击力中的应用, 中国造船, 2004, 45(增刊): 110-116.
[76] 任冰*, 王永学. 不规则波对浪溅区结构物冲击作用的试验研究频域分析. 海洋工程, 2003, 21(4): 53-60.
[77] 任冰*, 王永学. 不规则波对透空式建筑物上部结构冲击作用时域分析. 大连理工大学学报, 2003, 43(6):818-824.
[78] 任冰*, 王永学. 非线性波浪对结构物的冲击作用. 大连理工大学学报, 1999, 39(4): 562-566.
[79] 王永学, 任冰*. 波浪冲击过程的湍流数值模拟. 水动力学研究与进展, A 辑, 1999, 14(4): 409-417.
3、会议论文
[1] Zhu, G, Gao, S, Ren, B, & Lin, P. "Experimental Study on the Effectiveness of V-Type Breakwaters Against Infragravity Waves on Reef-Fringed Coasts." Proceedings of the ASME 2025 44th International Conference on Ocean, Offshore and Arctic Engineering. Volume 3: Ocean Engineering; Polar and Arctic Sciences and Technology. Vancouver, British Columbia, Canada. June 22–27, 2025.
[2] Jiang HB, Zhao HD, Chen WD, Lin PZ, Ren B. Numerical simulation of motion response of submerged floating tunnel under wave action. InBridge Maintenance, Safety, Management, Digitalization and Sustainability 2024 Jul 12 (pp. 1063-1070). CRC Press.
[3] Chen W., Zhao H., Chen J., Ren B.*, Laboratory tests on the motion characteristic of truncated submerged floating tunnel considering boundary stiffness under the regular wave action. The 14th International Conference on Hydrodynamics, 2022, Wuxi, China.
[4] Zhu G., Ren B.*, Wang Y., Wang C., Experimental research of wave transformation on porous coral reef. OMAE2019-96582. June 9-14, 2019, Glasgow, Scotland.
[5] Zhu G., Xia Y., Ren B.*, Wang G., 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.
[6] Zhang X., Ren B.*, Wang Y., Wen H., Numerical simulation of wave transformation over deep-sea platform reef using SPH method, OMAE 2018-77325, June 17-22, 2018, Madrid, Spain.
[7] 温鸿杰,张向,任冰*,王国玉,随机波在珊瑚礁地形上传播变形的 SPH 模拟,第 29 届全国水动力学研讨会,浙江舟山,2018.8.
[8] Li Y., He Ming, Ren B.*, Wang G., Numerical simulation of wave interaction with a hinged multi-module floating structures, OMAE 2017-61079, June 25-30, 2017, Trondheim, Norway.
[9] Ren B.*, Chen C., Dong P., Li Y., 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.
[10] Tang J, Ren B.*, Wang G., 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.
[11] Chen C., Ren B.*, Wen Hongjie, Numerical simulation of wave interaction with perforated caissons using SPH. Meshfree Methods in Computational Hydraulics, 2016, 33-50.
[12] Li C., Jiang M., Ren B.*, Wang Y.,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.
[13] 任冰*,温鸿杰,王永学,王国玉(2015),波浪与抛石堤相互作用的湍流模拟,第十七届中国海洋(岸)工程学术讨论会论文集(上),2015,P483-488,南宁,中国.
[14] Wen H., Ren B.*, 3D numerical wave basin based on parallelized SPH method. OMAE 2014, June 8-13, 2014, San Francisco, California, USA.
[15] Jiang M., Ren B.*, Wang G., Wang Y., 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.
[16] He M., Ren B.*, Jiang F., Ma C., 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.
[17] 金钊, 任冰*, 徐志林, 王国玉. 基于 SPH 并行算法的数值波浪水槽研究. 第 24 届全国水动力学研讨会文集, 332-339, 2012 年, 江苏无锡.
[18] Cheng X., Wang Y.*, Ren B., Wang G., 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.
[19] Gao R., Ren B.*, Wang G., Wang Y., SPH Model of Solitary Waves Shoaling on a Mild Sloping Beach, Proceedings of the Twentieth International Offshore and Polar Engineering Conference, Beijing, China, June 20 25, 2010. 590-595.
[20] Li X., Ren B.*, Wang Y., Numerical study of the irregular wave impact. The 19th International Offshore and Polar Engineering Conference, 510-517, Osaka, Japan, June 21-26, 2009.
[21] Ren B.*, Li X., Han P., Wang Y., Numerical non-reflecting irregular wave flume based on VOF method. The ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering.OMAE2009, May 31 -June 5, 2009, Honolulu, Hawaii, USA, OMAE2009-79206.
[22] Ding Z., Ren B.*, Wang Y., Spectral analysis of unidirectional wave slamming on the three-dimensional structures in the splash zone. The 19th International Offshore and Polar Engineering Conference, 1024-1030, Osaka, Japan, June 21-26, 2009.
[23] 高睿, 任冰*. 波浪沿斜坡传播的 SPH 数值模拟. 第十四届中国海洋(岸)工程学术讨论会论文集, 482-487, 呼和浩特, 2009.8.
[24] Ren B.*, Ding Z., Wang Y. Experimental study of regular wave impact on the three-dimensional structure in the splash zone. The 17th International Offshore and Polar Engineering Conference, 2007, 3623-3629.(EI 收录)
[25] 丁兆强, 任冰*, 王永学, 任效忠. 单向波对浪溅区三维结构物冲击作用的研究. 第十三届中国海洋工程学术讨论会论文集, 2007, 176-184.
[26] 李雪临, 任冰*, 王永学. VOF 方法中主动吸收式无反射数值造波研究. 第 24 全国水动力学研讨会文集, 2007, 265-272.
[27] Ren B.*, Wang Y., Experimental study of irregular wave impact on piled wharf with permeable slope shore connecting. APAC2003, Japan, 2004, 177-178.
[28] 任冰*, 王永学. 随机波浪对不同接岸型式码头上部结构的冲击作用研究. 第 18 届全国水动力学研讨会文集, 新疆乌鲁木齐, 2004 .08, 481-492.
[29] 任冰*, 王永学. 随机波浪对透空式建筑物上部结构冲击作用的数值模拟. 第十一届中国海岸工程学术讨论会暨 2003 年海峡两岸港口及海岸开发研讨会论文集, 海南三亚, 2003, 195-204.
[30] Wang Y., Ren B.*. Experimental study of Irregular Wave slamming. ISOPE, Kitakyushu, Japan, 2002, 492-495.
[31] Ren B.*, Wang Y., Spectral analysis of irregular wave impact on the structure in splash zone. OMAE, Oslo, Norway, 2002, OMAE2002-28091.
[32] Ren B.*, Wang Y., Kassels Seth. Experimental investigation of wave impact on piled wharves with different shore connecting structure. APAC, Dalian, China, 2001, 751-757.
[33] 任冰*, 王永学. 波浪对不同接岸型式桩基码头冲击作用的实验研究. 第五届全国水动力学学术会暨第十五届全国水动力学研讨会论文集, 武汉, 2001, 150-157.
[34] Wang Y., Liu M., Ren B., Experimental study of wave slamming. OMAE’98, Lisbon, Portugal, 1998, OMAE98-0403.
[35] Wang Y., Ren B.*. Numerical simulation of wave slamming by turbulent model. Pacific Conference on Ocean Science and Technology, Hong Kong, China, 1997, 251-259.
