- 单位:河海大学 港口海岸与近海工程学院
- 职称:教授
- 职位:副院长
- 出生:1976-1
- 性别:男
- 社会职务: 国际水利与环境工程学会(IAHR)中国分会执委等
- 联系方式:ypchen@hhu.edu.cn
近岸风暴潮高精度预报、河口海岸水环境模拟、河口动力变化与工程安全
论文与著作
(1)Zhu, X., Chen, Y. P.*, Gan, M., Zhou, J. J., Hu, X. D., 2019. Study of Nitrogen and Phosphorus flow between the water, aquatic plants and the sediment, Applied Ecology and Environmental Research, 2020, 18(1):943-957
(2)Pan, Y., Yin, S., Chen, Y. P. *, Yang, Y. B., Xu, Z. S. and Xu, C. Y., 2019. A Practical Method to Scale the Sedimentary Parameters in a Lightweight Coastal Mobile Bed Model, Journal of Coastal Research, 35(6): 1351-1357.
(3)Wang, R. N., Chen, K. F., Lu, P. D., Chen, Y. P., Wang, Y. H. and Zhang, J. S., 2019. Effects of tidal variations on storm waves: A case study of the radial sand ridges along China’s Jiangsu coast during Typhoon Muifa, Ocean Engineering, No. 106444.
(4)Fang, S. Q., Chen, Y. P.*, Xu, Z. S., Otoo, E. and Lu, S. Q., 2019. An Improved Integral Model for a Non-Buoyant Turbulent Jet in Wave Environment, water, 11, 765: 1-20.
(5)Chen, Y. P., Li, J. X., Pan, S., Gan, M., Pan, Y., Xie, D. M. and Clee, S., 2019. Joint probability analysis of extreme wave heights and surges along China’s coasts, Ocean Engineering, 177: 97-107.
(6)Gan, M., Chen, Y. P.*, Pan, S., Li, J. X. and Zhou, Z. J., 2019. A modified non-stationary tidal harmonic analysis model of for the Yangtze estuarine tides, Journal of Atmospheric and Oceanic Technology, 36: 513-525.
(7)Xu, Z. S., Eben Otoo, Chen, Y. P.* and Ding, H. W., 2019. 2D PIV Measurement of Twin Buoyant Jets in Wavy Cross-Flow Environment, Water, 11, 399: 1-18.
(8)Zhang, N. R., Chen, K. F., Lu, P. D., Chen, Y. P., Zhang, J. S. and Wang, Y. H., 2019. Impact of a water–sediment regulation scheme on the hydrodynamics and sediment conditions in the Sheyang Estuary, Estuarine, Coastal and Shelf Science, 218: 349-358.
(9)Xu, Z. S., Chen, Y. P.* and Pan, Y., 2018. Initial dilution equations for wastewater discharge: Example of non-buoyant jet in wave-following-current environment, Ocean Engineering, 164:139-147.
(10)Pan, Y., Kuang, C. P., Chen, Y. P., Yin, S. and Zhang, Y. 2018. A comparison of the performance of submerged and detached artificial headlands in a beach nourishment project, Ocean Engineering, 159: 295-304.
(11)Li, J. X., Pan, S., Chen, Y. P.*, Fan Y. and Pan, Y., 2018. Numerical estimation of extreme waves and surges over the northwest Pacific Ocean, Ocean Engineering, 153: 225–241.
(12)Pan, Y., Chen, Y. P.*, Zhang, T. X., Hu, Y. Z., Yin, S., Yang, Y. B. and Tan, H. M., 2018. Laboratory study on erosion of vegetated HPTRM system under high-speed open-channel flow, Journal of Waterway, Port, Coastal, and Ocean Engineering. 144(1):04017038, 1-9.
(13)Xu, C. Y., Chen, Y. P. * and Yu, L. L., 2018. Numerical studying on the sedimentary processes at a mudflat near Yangtze River, Journal of Coastal Research, 85(SI): 1201-1205.
(14)Pan Y., Chen, Y. P.*, Yuan J. Y., Liu, Y. and Xu, Z. S., 2018. Error-Estimation Ensemble Method in the Forecasting of Tropical Cyclone Tracks, Journal of Coastal Research, 85(SI): 771-775.
(15)Yao, P., Hu, Z., Su, M., Chen, Y.,P. , Ou, S., 2018. Erosion Behavior of Sand-silt Mixtures: the Role of Silt Content. Journal of Coastal Research, 85(SI): 1171–1175.
(16)Xu, Z. S., Chen, Y. P.*, Wang, Y. N. and Zhang, C. K., 2017. Near-field dilution of a turbulent jet discharged into coastal waters: effect of regular waves, Ocean Engineering, 140: 29-42.
(17)Pan, Y., Kuang, C. P., Zhang, J. B., Chen, Y. P., Mao, X. D., Ma, Y., Zhang, Y., Yang, Y. X. and Qiu, R. F., 2017. Post-nourishment evolution of beach profiles in a low-energy sandy beach with a submerged berm, Journal of Waterway, Port, Coastal, and Ocean Engineering, 143(4): 05017001,1-12
(18)Xu Z. S.,Chen, Y. P.*, Tao, J. F., Pan, Y., Derrick, M. A. S., Zhang, C. K.,Li, C. W., 2016. Three-dimensional flow structure of a non-buoyant jet in a wave-current coexisting environment, Ocean Engineering, 116: 42-54.
(19)Su, M., Yao, P., Wang. Z. B., Zhang, C. K., Chen, Y. P. and Stive, M., 2016. Conversion of electro-optical signals to sediment concentration in a silt–sand suspension environment, Coastal Engineering, 114: 284-294.
(20)Li, J. X., Chen, Y. P.*,Pan, S. Q., Pan Y., Fang, J. Y., Derrick, M. A. S., 2016. Estimation of mean and extreme Waves in the East China Seas, Applied Ocean Research, 56: 35–47.
(21)Pan, Y., Chen, Y. P. *, Li, J. X., Ding, X. L., 2016. Improvement of wind field hindcasts for tropical cyclones, Water Science and Engineering, 9(1): 58-66.
(22)Chen, Y. P., Li, J. X., Wu, Z. G. and Pan, S., 2016. Dynamic analysis of riverbed evolution: Chengtong reach of Yangtze estuary, Journal of Coastal Research, 75(SI): 203-207.
(23)Li J. X., Chen, Y. P.* and Pan, S., 2016. Modelling of extreme wave climate in China Seas, Journal of Coastal Research, 75(SI): 522-526.
(24)Ding, X. L., Chen, Y. P.*, Pan, Y., Reeve, D., 2016. Fast ensemble forecast of storm surge along the coast of China, Journal of Coastal Research, 75(SI): 1077-1081.
(25) Fang, J. Y., Chen, Y. P.*, Yao, P., Su. M., 2016. Effective roughness height in high-concentrated flows, Journal of Coastal Research, 75(SI): 53-57.
(26) Xu, Z. S., Dreier, N., Chen, Y. P.*, Fröhle, P. and Xie, D. M., 2016. On the long-term changes of extreme wave events at the German Baltic Sea coast, Journal of Coastal Research, 75(SI): 962-966.
(27) Pan, Y., Li, L., Amini, F., Kuang C. P., and Chen, Y. P., 2016. New understanding on the distribution of individual wave overtopping volumes over a levee under negative freeboard, Journal of Coastal Research, 75(SI): 1207-1211.
(28) Xu, Z. S, Chen, Y. P.*, Tao, J. F., Pan, Y., Zhang, C. K. and Li, C. W., 2016. Modelling of a non-buoyant vertical jet in waves and currents, Journal of Hydrodynamics, 28(5): 778-793.
(29) Yao, P., Su, M., Wang. Z. B., Van Rijn L., Zhang, C. K., Chen, Y. P. and Stive, M., 2015. Experiment inspired numerical modeling of sediment concentration over sand-silt mixtures, Coastal Engineering, 105: 75–89.
(30) Qian, X.S., Chen, Y. P.*, Zhang, C. K. and Das, H., 2015. Radial tidal current field in a semi-enclosed rectangular basin: formation and evolution, Chinese Journal of Oceanology and Limnology, 33(4): 1085-1099.
(31) Wang, Y. N., Chen, Y. P.*, Xu, Z. S, Pan, Y., Zhang, C. K. and Li, C. W., 2015. Initial dilution of deepwater sewage discharge in waves and currents, China Ocean Engineering, 29(6): 847-85.
(32) Xu, Z. S., Chen, Y. P.*, Zhang, C. K., Wang, Y. N. and Li, C. W., Hu, F., 2014. Comparative study of a vertical round jet in regular and random waves, Ocean Engineering, 90, 200-210.
(33) Zou, Q. P., Chen, Y. P., Cluckie, I., Hewston, R., Pan, S., Peng, Z. and Reeve, D., 2013. Ensemble prediction of coastal flood risk arising from overtopping by linking meteorological, ocean, coastal and surf zone models, Quarterly Journal of the Royal Meteorological Society, 139: 298–313.
(34) Chen, Y. P., Xie, D. M., Zhang, C. K., Qian, X. S., 2013. Estimation of long-term wave statistics in the East China Sea, Journal of Coastal Research, 65(SI), 177-182.
(35) Zhang, C. K., Yang, Y. Z., Tao, J. F., Chen, Y. P., Yao, P. and Su, M., 2013. Suspended sediment fluxes in the radial sand ridge field of South Yellow Sea, Journal of Coastal Research, 65(SI), 624-629.
(36) Chen, Y. P., Li, C. W. and Zhang, C. K., Xu, Z. S. 2012. Numerical study of a round buoyant jet under the effect of JONSWAP random waves, China Ocean Engineering, 26(2), 235-250.
(37) Reeve D. E., Chen, Y. P., Pan, S., Magar, V. and Simmonds, D. J., 2011. An investigation of the impacts of climate change on wave energy generation: The Wave Hub, Cornwall, UK. Renewable Energy, 36(9), 2404-2413.
(38) Du, Y., Pan, S. and Chen, Y. P., 2010. Modelling the effect of wave overtopping on nearshore hydrodynamics and morphodynamics around shore-parallel breakwaters, Coastal Engineering, 57, 812-826.
(39) Pan, S., Chen, Y. P., Wolf, J. and Du, Y., 2009. Modelling of waves in the Irish Sea: effects of oceanic wave and wind forcing. Ocean Dynamics, 59(6), 827-836.
(40) Chen, Y. P., Li, C. W. and Zhang, C. K., 2008. Numerical modelling of a round jet discharged into random waves. Ocean Engineering, 35(1), 77-89.
(41) Chen, Y. P., Li, C. W. and Zhang, C. K., 2006. Large eddy simulation of vertical jet impingement with a free surface. Journal of Hydrodynamics, 18(2), 148-155.
(42) Chen, Y. P., Li, C. W. and Zhang, C. K., 2004. Development of a fully nonlinear numerical wave tank, China Ocean Engineering, 18(4), 501-514.
(43) Chen, Y. P. and Lei, Z. Y., 2001. A study of eddy viscosity coefficient in numerical tidal simulation. China Ocean Engineering, 15(2), 241-252.
(44) Zhou, Y. R., Chen, Y. P., 2001. Threshold of sediment movement in different wave boundary layers. China Ocean Engineering, 15(4), 509-520.
(45)潘毅,刘烨,周子骏, 陈永平. 不同海堤内坡护坡下的波浪溢流量特征及通用化计算方法,水动力学研究与进展(A辑),2019,34(3): 346-352.
(46)潘毅,陈淑敏,周子骏,陈永平,李琳. 不同护坡条件下波浪溢流海堤内坡水动力特征, 水利水运工程,2019, (4): 1-8.
(47)刘莹,潘毅,陈永平,袁杰颖. 预估偏差法集合化台风路径概率预报, 海洋预报,2019, 36(3): 18-23.
(48)
(49)杨玉宝, 潘毅, 陈永平, 尹硕, 陈淑敏, 低能砂质海岸人工水下沙坝剖面的演变分析, 水动力学研究与进展(A辑),2019,34(2): 232-237.
(50)郁李丽,许春阳,陈永平,高翔宇. 剪切流作用下浮泥层悬扬速率计算方法综述,泥沙研究,2019, 44(2): 55-62.
(51)丁宏伟,杨全义,徐振山,张玉玲,陈永平,杨柳俊. 波流环境下双孔浮射流运动特性,河海大学学报(自然科学版),2019, 47(2): 183-188.
(52)张玉玲,徐振山,陈永平,孙朴. 波流环境下多孔射流运动和稀释特性试验,河海大学学报(自然科学版),2019, 47(1): 71-78.
(53)潘毅,张同鑫,周子骏,陈永平. 波浪溢流作用下海堤内坡高性能加筋草皮护坡防侵蚀特征研究,海洋工程,2019,37(1): 29-36.
(54)潘毅,张壮,袁赛瑜,周子骏,陈永平,海堤工程波浪溢流问题研究进展,水利水电科技进展,2019,39(1): 90-94.
(55)杨柳俊,丁宏伟,张云,陈海峰,徐振山,陈永平. 突发水污染事件对长江澄通段水源地影响,江苏水利,2019,(10): 1-8.
(56)刘克强,袁杰颖,陈文召,陈永平,基于ADCIRC 水动力模型的台风风暴潮预报模型验证,水利水电快报,2019,40(4): 27-34.
(57)张壮,潘毅,陈永平,胡玉植,张同鑫,李琳. 高速明渠流条件下高性能加筋草皮抗侵蚀特性研究,水利水运工程学报,2018, (6): 77-83.
(58)刘颖婧,陈永平(通讯作者). 1951~2016年影响我国热带气旋的强度变化特征及其与ENSO的关系研究,应用海洋学学报,2018, 37(3): 301-312.
(59)罗俐雅,崔彦萍,甘敏,陈永平. 实测潮位异常值判别方法比较,江苏水利,2018,(4): 37-40.
(60)金秋,周宏杰,陈永平. 宁波市沿海台风风暴潮增水数值预报研究,浙江水利科技,2018,220(6): 22-25.
(61)郁李丽,许春阳,陈永平. 水—浮泥界面水沙分布及其对浮泥悬扬速率的影响,泥沙研究,2018,43(4): 24-30.
(62)岳书波, 曾剑, 陈永平, 张芝永, 涌潮潮头掺气的模型试验研究, 工程科学与技术, 2018, 50(1): 28-35.
(63)陈永平,孙朴,王娅娜,徐振山,江东勃,张玉玲,排放角度对波浪环境中圆管射流运动和稀释特性的影响,水科学进展,2017, 28(6): 898-907.
(64)徐振山,陈永平(通讯作者),张长宽,波流环境中垂直圆管射流三维运动和稀释过程模拟,水科学进展,2017,28(2),265-275.
(65) 张玥,陈永平(通讯作者),刘颖婧,董家根,罗俐雅,影响江苏的寒潮时空分布及气候变化特征,江西农业学报,2017, 29(11) : 111-117.
(66)曹丹旭,陈永平(通讯作者),甘敏,周天逸,河口挡潮闸闸下低潮缺失水位修正方法,水运工程,2017, (9): 42-47.
(67)袁杰颖, 陈永平(通讯作者), 潘 毅, 董家根, 罗俐雅, 台风路径集合化预报方法的优化, 海洋预报,2017, 34(2): 37-42.
(68)尹硕,潘毅,陈永平,低能沙质海岸波浪动床模型:基于局部拟合法的低能沙质海岸比尺设计,水利水运工程,2017, (4): 44-51.
(69)杨玉宝,潘毅,徐振山,陈永平,许春阳,现浇型生态混凝土护岸抗水力冲刷性能试验研究,水利水电技术,2017, 48(11): 122-127.
(70)江东勃,陈永平(通讯作者),田万青,孙朴,王娅娜. 波流环境下双孔射流运动和稀释特性实验研究,中国科技论文,2016,11(19):2101-2106.
(71) 江东勃,陈永平(通讯作者),田万青,孙朴,王娅娜. 不同动力环境下孔间距对双孔射流特性的影响,水利水电科技进展,2016,36(5):40-45.
(72) 陈永平,田万青,方家裕,江东勃,波浪环境下多孔射流水动力特性试验研究,水科学进展,2016, 27(4): 569-578.
(73) 胥岩,潘毅,陈永平,老虎石公园海滩养护岸线演变模拟及预测, 中国港湾建设, 2016,1(5) :1-5.
(74) 谢婕,龚政,陈永平,陆倩,李江夏. 海堤安全评价指标体系的构建及应用,水利水电科技进展,2016,36(2): 59-63.
(75) 胡玉植,潘毅,陈永平. 海堤背水坡加筋草皮抗冲蚀能力试验研究,水利水运工程学报,2016,(1): 51-57.
(76) 丁雪霖,陈永平(通讯作者),顾茜. 2013年西北太平洋台风路径集合预报,河海大学学报,2015,43(4): 361-365.
(77) 王良才,陈永平(通讯作者),胡玉植,基于SWASH模型的近岸波浪传播变形数值模拟,水利水运工程研究,2015,(2): 26-32.
(78) 孙逸豪,艾斯卡尔·吾休尔,陈永平,动态潮汐能大坝影响因素及坝型数值研究, 可再生能源,2015,33(4): 625-631.
(79) 钱学生,陈永平(通讯作者),张长宽. 带丁坝型半封闭矩形海湾中M2分潮潮波和潮流特性分析, 海洋学报,2014, 36(9): 31-38.
(80) 谢冬梅,陈永平(通讯作者),张长宽,李江夏. 江苏外海极值波浪与增水联合概率分析, 海洋工程, 2014, 32(4): 64-71.
(81) 李佳佳,李志伟,张长宽,陈永平. 基于DANS方程的粗糙床面明渠水力特性的数值模拟, 河海大学学报(自然科学版), 2014, 42(3): 217-222.
(82) 徐振山,陈永平(通讯作者),张长宽,王娅娜. 波流环境中射流的大涡数值模拟, 水科学进展, 2014, 25(2): 239-245.
(83) 吴志钢,陈永平(通讯作者),张长宽,姜宁林. 长江口如皋沙河段河演动力分析, 人民长江, 2013, 44(24): 13-16.
(84) 顾茜,丁雪霖,陈永平. 2012年西北太平洋多台站台风预报误差比较分析, 河海大学学报(自然科学版), 2013, 41(6): 531-535.
(85) 胡飞,陈永平(通讯作者),张长宽,徐振山. 波浪环境下垂直射流的动量积分模型, 水利学报, 2013, 44(9): 1058-1070.
(86) 徐振山,陈永平(通讯作者),张长宽,王娅娜. 规则波和不规则波条件下射流实验对比研究,水科学进展,2013, 24(5): 715-721.
(87) 谢冬梅, 陈永平(通讯作者), 张长宽. 江苏外海深水波要素推算, 海洋工程, 2013, 31(2): 94-99.
(88) 侯虹波 ,陈永平,张长宽. 江苏沿海近岸台风浪数值模拟——以1109号台风“梅花”为例,水运工程, 2013, (4): 13-19.
(89) 杨阳,陈永平. 江苏沿海潮差能和潮流能区域分布研究, 可再生能源,2013, 31(1): 76-80.
(90) 姜宁林,张长宽, 陈永平(通讯作者). 上游径流变化对澄通河段汊道段分流比影响分析,人民长江, 2012, 43(23): 33-36.
(91) 谢冬梅,陈永平,张长宽. 东中国海波浪分布特征研究, 水运工程,2012,(11): 14-21.
(92) 徐振山,陈永平(通讯作者),张长宽. 海岸动力环境下射流运动研究综述, 水科学进展,2012, 23(3): 456-463.
(93) 姜宁林, 陈永平,费锡安, 张长宽. 长江口澄通河段河势演变分析, 水运工程, 2011, (12): 106-111.
(94) 姜宁林, 陈永平,费锡安. 长江口福姜沙河段河床演变分析, 水利科技与经济, 2011, 17(6): 8-9.
(95) 陈永平, 李志伟, 张长宽. 不规则波作用下垂向圆管浮射流的试验研究, 水利学报, 2009, 40(12): 1447-1454.
(96) 陈永平, 李志伟, 谭鹰勋, 张长宽. 不规则波作用下垂向圆管射流的试验研究, 水利学报, 2008, 39(2): 168-175.
(97) 张金善, 陈永平, 赵铁卫, 徐啸. 大、小洋山建港总体规划中的水流泥沙问题, 海洋工程, 2004, 22(4): 56-60.
(98) 龚政, 张东生, 陈永平. 陆源污染物对连云港海域环境影响研究, 海洋工程, 2002, 20(4): 72-77.
(99) 陈永平, 刘家驹, 喻国华. 潮流数值模拟中紊动粘性系数的研究, 河海大学学报(自然科学版) , 2002, 30(1): 39-43.
(100)马启南, 陈永平, 张金善, 龚政. 杭州湾的三维水流数值模拟,海洋工程, 2001, 19(4): 58-64.
(101)姚炎明, 陈吉余, 陈永平, 祝永康. 温州湾水流及其与地形的关系, 华东师范大学学报(自然科学版), 1998, (2): 61-68.
(1)江苏省“六大人才高峰” 第十四批高层次人才选拔培养对象(2017年)
(2)江苏省“青蓝工程”中青年学术带头人培养对象(2016年)
(3)欧盟伊拉斯莫斯(Erasmus Mundus)高级访问学者(2016年)
(4)河海大学优秀创新人才计划培养对象(2012年)
(5)波流环境中垂向圆管射流三维数值模拟研究,江苏省优秀博士论文 (徐振山,2017年,合作指导)
(6)风暴潮集合化数值预报研究,江苏省优秀硕士论文(丁雪霖,2017年,独立指导)
(7)东中国海波浪和增水数值推算和联合概率分析,江苏省优秀硕士论文(谢冬梅,2014年,合作指导)
(8)动力变化条件下长江口澄通河段河床演变分析,江苏省优秀硕士论文(姜宁林,2013年,合作指导)
(9)基于垂直导桩式浮防波堤的波浪能发电装置, 江苏省第三届水文化创意设计大赛荣获一等奖(2012年,优秀指导老师,排名第1)
(10)《Estuarine and Coastal Dynamics》,江苏省高校省级外国留学生英文授课精品课程(2015年,排名第1)
(11)《Advanced Coastal Dynamics》,江苏省高校省级外国留学生英文授课精品课程(2018年,排名第2)
(12)江苏沿海沿江风暴灾害精细化预报技术研究与应用,江苏省水利科技进步二等奖(2019年,排名第2)。
(13)江苏沿海特异高潮位规律研究,江苏省水利科技进步二等奖(2017年,排名第2)。
(14)宁波市沿海风暴潮精细化预报预警技术研究及应用,浙江省水利科技创新奖二等奖(2018年,排名第7)
(15)河网-湖泊-近海连通水域污染物输运机理、模拟技术及应用,教育部科技进步二等奖(2013年,排名第4)
(16)河口海岸水灾害预警预报关键技术、系统集成及应用,国家科技进步奖二等奖(2011年,排名第8)
(17)河口海岸水动力、物质输运及灾害预警研究与应用,教育部科技进步一等奖(2010年,排名8)