职称:研究员
学位:工学博士学位
1. CAO D.P., He J., CHEN H. (2024), “Empirical Predictions on Wave Overtopping for Overtopping Wave Energy Converters: A Systematic Review”, Processes, 12, 1940 (SCI, JCR Q2, 影响因子:2.80).
2. ZENG H.Q., CAO D.P. (通讯), CHEN H., CHAI Q. and LU T.Z. (2024), “Applications of RIM-based flow visualization in fluid-solid interaction problems: A review of formulations and prospects”, Water, 16, 2055 (SCI, JCR Q2, 影响因子:3.00).
3. CAO D.P., Lin Z.B., Yuan J., Tan W.K. and CHEN H. (通讯) (2024), “Swash-flow induced forces on human body standing on a smooth and impermeable slope: A numerical study with experimental validations”, Engineering Applications of Computational Fluid Mechanics, 18:1, 2319768 (SCI, JCR Q1, 影响因子:5.90).
4. CHEN H. (通讯), Qian L. and CAO D.P. (2023), “Analysis of convergence behaviour for the overset mesh based numerical wave tank in OpenFOAM”, Journal of Offshore Mechanics and Arctic Engineering146 (3). 031901-031901. (SCI, JCR Q3, 影响因子:1.30).
5. CAO D.P. and CHEN H. (通讯) (2023), “Probabilistic analysis of irregular wave runup on a fixed and truncated surface-piercing vertical cylinder”, Marine Structures 88: 103360 (SCI, JCR Q1, 影响因子:4.00).
6. CHEN H. (通讯), Qian Lin and CAO D.P. (2023), “Harmonic structure of the nonlinear force on a fixed ship-shaped floating production, storage and offloading vessel under dispersive phase-focused wave groups”, Physics of Fluid 35: 042103 (SCI, JCR Q1, 影响因子:4.10).
7. TAN W.K., CAO D.P. (通讯) and YUAN J. (2022), “Numerical modelling of green-water overtopping flow striking a pedestrian on the crest of a sloped coastal structure”, Ocean Engineering 260: 112153 (SCI, JCR Q1, 影响因子:4.60).
8. CAO D.P., TAN W.K. and YUAN J. (通讯) (2022), “Assessment of wave overtopping risk for pedestrian's visiting the crest area of coastal structure”, Applied Ocean Research 120:102985, 1-16(SCI, JCR Q1, 影响因子:4.30).
9. CAO D.P., YUAN J. (通讯) and CHEN H. (2021), “Towards modelling wave-induced forces on an armour layer unit of rubble mound coastal revetments.”, Ocean Engineering, 239, 109811: 1-16, https://doi.org/10.1016/j.oceaneng.2021.109811, (SCI, JCR Q1, 影响因子:4.60).
10. CAO D.P., YUAN J. (通讯), CHEN H., ZHAO K.F., and LIU P.L.-F. (2021), “Wave overtopping flow striking a human body on the crest of a sloped seawall. Part I: physical modeling”, Coastal Engineering, 167:103891, 1-17, https://doi.org/10.1016/j.coastaleng.2021.103891, (SCI, JCR Q1, 影响因子:4.20).
11. CHEN H., YUAN J. (通讯), CAO D.P., and LIU P.L.-F. (2021), “Wave overtopping flow striking a human body on the crest of a sloped seawall. Part II: numerical modeling”, Coastal Engineering, 168:103892, 1-17, https://doi.org/10.1016/j.coastaleng.2021.103892, (SCI, JCR Q1, 影响因子:4.20).
12. CAO D.P., CHEN H. (通讯), YUAN J. (2020), “Inline force on a cylinder due to non-breaking wave overtopping at a vertical seawall”, Ocean Engineering, 219(1): 108300 (SCI, JCR Q1, 影响因子:4.60).
13. CAO D.P., JIAN W., HUANG Z.H., and LO Y. (通讯) (2018), “Prediction of Wave Runup on Columns of Two Semi-submersibles Models”, Journal of Coastal Research, SI, 85:1031-1035.
14. JIAN W., CAO D.P., LO Y. (通讯), HUANG Z.H., CHENG X.B., CHENG Z.P., GU H. and LI B.B. (2017), “Wave Runup on A Surging Vertical Cylinder in Regular Waves”, Applied Ocean Research, 63:229-241(SCI, JCR Q1, 影响因子:4.30).
15. CAO D.P., HUANG Z.H., HE F., JIAN W. and LO Y. (通讯) (2017), “An Improved Prediction for Wave Runup on A Circular Cylinder”, Coastal Engineering Journal, 59 (03), 1750013 https://doi.org/10.1142/S0578563417500139(SCI, JCR Q2, 影响因子:1.90).
16. CAO D.P., LO Y. (通讯), JIAN W. and HUANG Z.H. (2017), “An Experimental Study of Wave Runup: Cylinder Fixed in Waves versus Cylinder Surging in Still Water”, International Journal of Engineering and Technology, 9(2), 124-128 (EI收录).
17. CAO D.P. and CHIEW Y.M. (通讯) (2015), “Near-bed Flow Characteristics of Closed-conduit Flow Subjected to Suction”, Journal of Engineering Mechanics, 141(12), DOI: 10.1061/(ASCE)EM.1943-7889.0000955, 04015047(SCI, JCR Q1, 影响因子:3.30).
18. CAO D.P., CHIEW Y.M. (通讯) and YANG S.Q. (2016), “Injection Effects on Sediment Transport in Closed-conduit Flows”, Acta Geophysica, 64(1), 125-148, DOI: 10.1515/acgeo-2015-0064(SCI, JCR Q3, 影响因子:2.00).
19. CAO D.P., CHIEW Y.M. (通讯) and LIU X.X. (2014), “Effect of Suction Zone Length on Sediment Transport”, Journal of Hydraulic Research, IAHR, 53(1), 49-59, DOI: 10.1080/00221686.2014.928806(SCI,JCR Q2,影响因子:1.90).
20. CAO D.P. and CHIEW Y.M. (通讯) (2014), “Suction Effects on Sediment Transport in Closed-conduit Flows”, Journal of Hydraulic Engineering, ASCE, 140(5), p-1. 1p, DOI: 10.1061/(ASCE)HY.1943-7900.0000833(SCI,JCR Q3,影响因子:2.10).
21. CAO D.P. and CHIEW Y.M. (通讯) (2013), “Suction Effects on Flow Behavior and Sediment Transport”, IAHR World Congress, Chengdu, China.
22. CAO D.P. and CHIEW Y.M. (2012), “Suction Effects on Sediment Transport in Closed-Conduit Flow and Their Relationship to Membrane Fouling”, ICHE 2012, Orlando, USA.
23. 曹德平, 李春杰(通讯), 陈雪初, 曾晓文, 孔海南, 吴奇。 水化硅酸钙强化空心菜浮岛除磷能力的研究. 中国给水排水. 2008, 24(1): 22~25.
24. 曹德平, 陈雪初, 李春杰(通讯), 何圣兵, 张美兰。 生态聚磷石对低浓度景观水的除磷研究. 环境科学与技术, 2008, 31(6): 50-140.