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张继生
发布人: 港航院     发布时间: 2019-04-12     访问次数: 10406

 

张继生,男,教授,博士生导师, 研究生学历,博士学位

 


 

简历

1998.09~2002.06 重庆交通大学(原重庆交通学院)港口航道与海岸工程专业本科学习 

2002.09~2005.03 重庆交通大学(原重庆交通学院)水力学及河流动力学硕士研究生学习 

2005.04~2009.06 University of Aberdeen(英国阿伯丁大学)近海工程专业博士研究生学习 

2009.01~2009.06 Fisheries Research Services, Scotland(欧洲渔业研究中心苏格兰分中心)工程师(兼职) 

2009.07~2011.11 University of Dundee(英国邓迪大学)土木工程系,博士后研究 

2011.12~2012.03 河海大学港口海岸与近海工程学院,副教授 

2012.04~2015.06 河海大学港口海岸与近海工程学院,青年教授 

2015.07至今     河海大学港口海岸与近海工程学院,教授 

2013.04~2016.12 河海大学国际合作处,副处长(兼职) 

2013.10~2016.12 河海大学港口海岸与近海工程学院,院长助理 

2017.01至今    河海大学港口海岸与近海工程学院,副院长 

 


 

研究方向

近海可再生能源工程 

波浪-海床-结构物相互作用机理

 


 

主讲课程 

本科生课程:海岸动力学

研究生课程:海岸工程

留学生课程:Coastal Engineering

 


 

科研项目

[1].潮流能水轮机阵列多目标自动优化及其海洋动力环境影响研究,国家自然科学基金面上项目(51879098),2019.01~2022.12,项目负责人。

[2].大规模潮流能发电场多尺度水动力特性及耦合数值模拟研究,国家自然科学基金面上项目(51479053),2015.1~2018.12,项目负责人。

[3].波浪作用下海床失稳引起海上风机桩基础破坏的机理研究,国家自然科学基金青年项目(51209083),2013.1~2015.12,项目负责人。 

[4].波浪作用下海上风机基础的海床稳定性研究,国家自然科学基金委员会与英国皇家学会合作交流项目(NSFC-RS),2013.4~2015.3,项目负责人。

[5].《潮流能资源评估及特征描述》(SAC/TC546/WG4)国家标准制订,国家标准化管理委员会(国标委综合【2018】41号),2018.01~2019.12,项目负责人。

[6].潮流能工程物理模型试验与系统安全稳定性研究,南京河海科技有限公司,2018.06~2019.05,项目负责人。

[7].长江口等重点海岸带海域潮流动力与泥沙输运资料分析,青岛海洋地质研究所,2016.10~2017.5,项目负责人。

[8].平潭近海潮流发电海上勘测研究,平潭综合实验区节能海洋能源技术开发有限公司,2015.11-2016.5,项目负责人。

[9].波浪作用下防波堤头的海床失稳机理研究,留学人员科技活动项目择优资助项目,2012.11~2013.10,项目负责人。 

[10].海洋工程动力环境精细化预报与安全保障及评估技术研究,国家重点研发计划重点专项(2017YFC1404200),2017.07~2020.12,参加人(子专题负责人)。

[11].舟山潮流能示范工程建设,海洋可再生能源专项资金项目(GHME2015GC01),2015.07~2018.06,参加人。

[12].水运工程标准规范英/法文编译,中国港湾工程有限责任公司(20158071736),2015.06~2016.12,参加人。

[13].浙江舟山潮流能示范工程总体设计,海洋可再生能源专项资金项目(GHME2013GC03),2014.10~2014.9,参加人。

[14].Modelling of very large tidal current turbine arrays and their impact on coastal environments,中英博士教育及科研合作伙伴关系项目(留金欧[2013]6004号),2013.1~2014.12,参加人。 

[15].近海可再生能源综合发电基础研究,国家自然科学基金重点项目(51137002),2012.1~2016.12,参加人。 

[16].江苏沿海大规模潮流能发电技术基础研究,江苏省自然科学基金重点研究专项(BK2011026),2012.1~2014.12,参加人。



 

论文论著

[1].Jisheng Zhang, S. Song, Y. Zhai, L. Tong, Y. Guo. Numerical study on the wave-induced seabed response around a trenched pipeline. Journal of Coastal Research, Accepted.

[2].Jisheng Zhang, L. Tong, J. Zheng, R. He, Y. Guo. Effects of soil resistance damping on wave-induced pore pressure accumulation around a composite breakwater. Journal of Coastal Research, 2018, 34(3), 573-585.

[3].Jisheng Zhang*, Q. Li, C. Ding, J. Zheng, T. Zhang. Experimental investigation of wave-driven pore-water pressure and wave attenuation in a sandy seabed. Advances in Mechanical Engineering, 2016, 8(6): 1-10. 

[4].Zhang Jisheng*, Sun Ke, Zhai Yanyan, Zhang Huashan, Zhang Chi. Physical study on interactions between waves and a well-mixed seabed. Journal of Coastal Research, 2016, 75, 198-202. 

[5].Zhang Jisheng*, Gao Peng, Zheng Jinhai, Wu Xiuguang, Peng Yuxuan, Zhang Tiantian. Current-induced seabed scour around a pile-supported horizontal-axis tidal stream turbine. Journal of Marine Science and Technology, 2015, 23(6), 929-936. 

[6].Zhang Jisheng*, Zheng Jinhai, Jeng Dong-Sheng and Guo Yakun. Numerical simulation of solitary wave propagation over a steady current. ASCE Journal of Waterway, Port, Coastal and Ocean Engineering, 2015, 141(3), 04014041. 

[7].Zhang Jisheng, Zhang Yu, Jeng Dongsheng, Liu Pilips Li-Fan, Zhang Chi. Numerical simulation of wave-current interaction using a RANS solver. Ocean Engineering, 2014, 74, 157-164. 

[8].Zhang Jisheng, Zhang Yu, Zhang Chi, Jeng Dongsheng. Numerical modeling of seabed response to combined wave-current loading. Journal of Offshore Mechanics and Arctic Engineering, 2013, 135(3), 031102. 

[9].Zhang Jisheng, Wang Jun, Tao Aifeng, Zheng Jinhai Li Hui. New concept for assessment of tidal current energy in Jiangsu Coast, China. Advances in Mechanical Engineering, 2013, 340501. 

[10].Zhang Jisheng*, Zheng Jinhai, Zhang Chi, Jeng Dongsheng, Guo Yakun. Numerical study on the interaction between waves and twin pipelines in sandy seabed. Journal of Coastal Research, 2013, Special Issue No. 65, 428-433. 

[11].Zhang Jisheng*, Zheng Jinhai, Jeng Dongsheng, Wang Gang. Numerical simulation of solitary wave induced flow motion around a permeable submerged breakwater. Journal of Applied Mathematics, 2012, 508754. 

[12].Zhang Jisheng, Jeng Dongsheng, Liu Pilips Li-Fan, Zhang Chi. Response of a porous seabed to water waves over permeable submerged breakwaters with Bragg reflection. Ocean Engineering, 2012, 43, 1-12. 

[13].Zhang Jisheng, Jeng Dongsheng, Liu Pilips Li-Fan. Numerical study for waves propagating over a porous seabed around a submerged permeable breakwater: PORO-WSSI II model. Ocean Engineering, 2011, 38(7), 954-966.

[14].Zhang Jisheng, Guo Yakun, Shen Yongming, Zhang Lixiang. Numerical simulation of flushing of trapped salt water from a bar-blocked estuary. Journal of Hydraulic Engineering, ASCE, 2008, 134(11), 1671-1676. 

[15].Zhang Jisheng, Guo Yakun, Wang Pingyi. Effects of sediment concentration and initial phosphorus loading on phosphate adsorption in the Chongqing Reach of the Yangtze River. Journal of Environmental Engineering, ASCE, 2008, 134(7), 585-589. 

[16].Lin Xiangfeng, Zhang Jisheng*, Zhang Yuquan, Zhang Jing, Liu Sheng. Comparison of actuator line method and full rotor geometry simulations of the wake field of a tidal stream turbine. Water, 2019, 11, 560, 1-21.

[17].R. Asumadu, Jisheng Zhang*, O. Hubert, B. Alex. 2-D Model of Wave-Induced Response of Seabed around Permeable Submerged Breakwater. Advance in Mechanical Engineering, 2019, 11(1), 1-15.

[18].K. Sun, Jisheng Zhang, Y. Gao, D. Jeng, Y. Guo, Z. Liang. Laboratory experimental study of ocean waves propagating over a partially buried pipeline in a trench layer. Ocean Engineering, 2019, 173, 617-627.

[19].He Rui, Kaynia M. Amir, Zhang Jisheng. A poroelastic solution for dyanamics of laterally loaded offshore monopiles. Ocean Engineering, 2019, 179, 337-350.

[20].Wang Huakun, Zhai Qiu, Zhang Jisheng*. Numerical study of flow-induced vibration of a flexible plate behind a circular cylinder. Ocean Engineering, 2018, 163, 419-430. 

[21].Tong Linlong, Zhang Jisheng*, Sun Ke, Guo Yakun, Zheng Jinhai, Jeng Dongsheng. Experimental study on soil response and wave attenuation in a silt bed. Ocean Engineering, 2018, 160, 105-118. 

[22].P. Dai, Jisheng Zhang*, J. Zheng, 2018. Tidal Current and Tidal Energy Changes Imposed by a Dynamic Tidal Power System in the Taiwan Strait, China. Journal of Ocean University of China, 2017, 16(6), 953-964. 

[23].R. He, Jisheng Zhang, W. Chen. Using the Elastic Vertical Vibration of a Rigid Caisson at Low Frequencies to Stabilize the Foundation of Coastal Engineering Structures. Journal of Coastal Research, 2017, 33(4), 989-996.

[24].Zhai Yanyan, He Rui, Zhao Jialin, Zhang Jisheng*, Jeng Dongsheng, Ling Li. Physical model of wave-induced seabed response around trenched pipeline in sandy seabed. Applied Ocean Research, 2018, 74, 37-52.

[25].Zhang Yuquan, Zhang Jisheng*, Zheng Yuan, Yang Chunxia, Zang Wei. Fernandez-Rodriguez E. Experimental analysis and evaluation of the numerical prediction of wake characteristics of tidal stream turbine. Energies, 2017, 10, 2057.

[26].Peng Wei, Huang Xiaoyan, Fan Yaning, Zhang Jisheng*, Ren Xingyue. Numerical analysis and performance optimization of a submerged wave energy converting device based on the floating breakwater. Journal of Renewable and Sustainable Energy, 2017, 9, 044503. 

[27].Yanyan Zhai, Jisheng Zhang*, Lai Jiang, Qiancheng Xie, Hao Chen. Experimental study of wave motion and pore pressure around a submerged impermeable breakwater in a sandy seabed. International Journal of Offshore and Polar Engineering, 2016, 28(1), 87-95. 

[28].Yu Zhiwen, Zhang Jisheng*, Zhai Yanyan, Zhang Tiantian, Zheng Jinhai. Numerical hydrodynamics study around turbine array of tidal stream farm in Zhoushan, China. Journal of Ocean University of China, 2017, 16(4), 6-11. 

[29].P. Dai, Jisheng Zhang, J. Zheng, 2017. Predictions for dynamic tidal power and associated local hydrodynamic impact in the Taiwan Strait, China. Journal of Coastal Research, 33, 149-157. 

[30].Zheng Jinhai, Zhang Jisheng, Wang Jun. Evaluation of tidal stream energy around radial sand ridge system in the southern Yellow Sea. Journal of Marine Science and Technology, 2015, 23(6), 951-956. 

[31].Zhao Hongyi, Jeng Dongsheng, Zhang Jisheng*, Liao Chencong, Zhang Huijie, Zhu Jianfeng. Numerical study on loosely deposited foundation behavior around a composite breakwater subject to ocean wave impact. Engineering Geology, 2017, 227(21), 121-138. 

[32].Hongyi Zhao, Dong-Sheng Jeng, Zhen Guo, Jisheng Zhang*. Two-dimensional model for pore pressure accumulations in the vicinity of a buried pipeline. Journal of Offshore Mechanics and Arctic Engineering, 2014, 135(3), 4027955.

[33].Huang Ting, Zheng Jinhai, Zhang Jisheng, Yuan Yu, Wu Bin. Experimental study on the cyclic behavior of monopiles in fine sandy beds under regular waves. China Ocean Engineering, 2017, 31(5), 607-617. 

[34].Zhou Chunyan, Zheng Jinhai, Dong Ping, Zhang Jisheng, Zhu Yuliang, Zhang Zhiheng. Tidal evolution in the yellow and east China sea during Holocene. Journal of Coastal Research, 2016, 75, 785-789. 

[35].Zhang Yu, Jeng Dongsheng, Zhao Hongyi, Zhang Jisheng. An integrated model for pore pressure accumulations in marine sediment under combined wave and current loading. Geomechanics and Engineering, 2016, 4, 387-403. 

[36].Zhao Hongyi, Jeng Dongsheng, Zhang Huijie, Zhang Jisheng, Zhang Hong. 2-D integrated numerical modeling for the potential of solitary wave-induced residual liquefaction over a sloping porous seabed. Journal of Ocean Engineering and Marine Energy, 2015, 10.1007/s40722-015-0033-3. 

[37].Sui Titi, Zhang Chi, Guo Yakun, Zheng Jinhai, Jeng Dongsheng, Jisheng Zhang, Zhang Wei. Three-dimensional numerical model for wave-induced seabed response around mono-pile. Ships and Offshore Structures, 2015, 10.1080/17445302.2015.1051312. 

[38].Zhang Chi, Zheng Jinhai and Zhang Jisheng. Predictability of wave-induced net sediment transport using the conventional 1DV RANS diffusion model. Geo-Marine Letters, 2014. DOI: 10.1007/s00367-014-0360-8. 

[39].Lipeng Yang, Bing Shi, Yakun Guo, Lixiang Zhang, Jisheng Zhang, Yan Han. Scour protection of submarine pipelines using rubber plates underneath the pipes. Ocean Engineering, 2014, 84, 176-182. 

[40].Jeng Dong-Sheng, Jianhong Ye, Jisheng Zhang, Liu Pilips Li-Fan. An integrated model for the wave-induced seabed response around marine structures: model verifications and applications. Coastal Engineering, 2013, 72, 1-19. 

[41].Bo Liu, Dong-Sheng Jeng, Jisheng Zhang. Dynamic response in a porous seabed of finite depth to combined wave and current loadings. Journal of Coastal Research, 2013, 296(4), 765-776. 

[42].Yu Zhang, Dong-Sheng Jeng, Fuping Gao, Jisheng Zhang. An analytical solution for response of a porous seabed to combined wave and current loading. Ocean Engineering, 2013, 57, 240-247. 

[43].Jeng Dongsheng, Ismail A, Zhang L-L, Zhang Jisheng. Empirical model for the prediction of lateral stability coefficient for un-trenched submarine pipes based on self-evolving neural network (SEANN). Ocean Engineering, 2013, 72, 167-175. 

[44].Ismail A, Jeng Dong-Sheng, Zhang L-L, Zhang Jisheng. Predictions of bridge scour: Application of a feed-forward neural network with an adaptive activation function. Engineering Applications and Artificial Intelligence, 2013, 26(5-6), 1540-1549. 

[45].Wang Gang, Zheng Jinhai, Jerome Peng-Yea Maa, Zhang Jisheng, Tao Aifeng. Numerical experiments on transverse oscillations induced by normal-incident waves in a rectangular harbor of constant slope. Ocean Engineering, 2013, 57: 1-10. 

[46].Lu Jianfei, Jeng Dong-Sheng, Wan Jianwei, Zhang Jisheng. A new model for the vibration isolation via pile rows consisting of infinite number of piles. International Journal for Numerical and Analytical Methods in Geomechanics, 2013, 37(15), 2394-2426. 

[47].Zhao Hongyi, Jeng Dong-Sheng, Zhang Yu, Zhang Jisheng, Zhang Huijie and Zhang Chi. 3D numerical model for wave-induced seabed response around breakwater heads. Geomechanics and Engineering, 2013, 5(6), 595-611.

[48].Zhang Chi, Zheng Jinhai, Dong Xiaowei, Cao Kai and Zhang Jisheng. Morphodynamic response of Xiaomiaohong tidal channel to a coastal reclamation project in Jiangsu Coast, China. Journal of Coastal Research, 2013, SI 65: 630-635. 

[49].Guo Yakun, Wu Xiuguang, Pan Cunhong, Zhang Jisheng. Numerical simulation of the tidal flow and suspended sediment transport in the Qiantang Estuary. Journal of Waterway, Port, Coastal, and Ocean Engineering, ASCE, 2012, 138(3), 192-202. 

[50].Zhang Chi, Zheng Jinhai, Wang Yigang, Jeng Dong-Sheng and Zhang Jisheng. A process-based model for sediment transport under various wave and current conditions. International Journal of Sediment Research, 2011, 26(4), 500-514.

[51].Zhang Chi, Zheng Jinhai, Wang Yigang, Zhang Mengtao, Jeng Dong-sheng and Zhang Jisheng. Comparison of turbulence schemes for prediction of wave-induced near-bed sediment suspension above a plane bed. China Ocean Engineering, 2011, 25(3), 395-412. 

[52].Guo Yakun, Zhang Jisheng, Zhang, Lixiang. Numerical simulation of 3D flow around an overlapping cylinder. Proceedings of ICE - Maritime Engineering, 2010, 163(2), 49-56. 

[53].Zhang Jisheng, Wang Bo, Jeng Dongsheng, Liu Pilips Li-Fan. An integrated model of wave-seabed-structure interactions. Journal of Hydrodynamics, Serial B, 2010, 22 (5 Suppl. 1), 126-131. 

[54].Guo Yakun, Zhang Jisheng, Zhang Lixiang, Shen Yongming. Computational investigation of typhoon-induced storm surge in the Hangzhou Bay, China. Estuarine, Coastal and Shelf Science, 2009, 85(4), 530-536. 

[55].Guo Yakun, Zhang Lixiang, Shen Yongming, Zhang Jisheng. Modeling study of free overfall in a rectangular channel with strip roughness. Journal of Hydraulic Engineering, ASCE, 2008, 134(5), 664-667. 

[56].Jing Hefang, Guo Yakun, Li C, Zhang Jisheng. Three dimensional numerical simulation of compound meandering open channel flow by the Reynolds stress model. International Journal for Numerical Method in Fluids, 2008, 59(8), 927-943. 

 

授权发明专利 

[1].贺瑞,朱涛,马博,张继生,一种对倾斜模型桩基进行纠偏的试验纠偏装置及方法,2019.02.01,中国,CN201711275536.4

[2].张继生,高鹏,林祥峰,郑金海,基于动态概化的潮流能水轮机阵列水动力影响数值模拟方法,2018.08.31,中国,CN 201710017501.4

[3].张继生,林祥峰,王华坤,彭伟,管大为,一种潮流能和涡激振动能综合发电装置,2018.07.30,中国,CN 201710133231.3

[4].张继生,林祥峰,贺瑞,黄挺,彭伟,一种水平轴潮流能水轮机实验装置,2018.08.24,中国,CN 201710055422.2

[5].林祥峰,张继生,贺瑞,黄挺,彭伟,一种水平轴潮流能水轮机实验装置及其实验方法,2018.10.23,中国,CN201710055422.2

[6].彭伟,范亚宁,张继生,一种利用波浪能的土壤灌溉施肥系统,2018.07,中国,CN201610702171.8

[7].黄挺, 张继生, 袁宇, 郑金海, 一种减少桩身变位的新型海洋工程桩基及其制作方法, 2015.08.25, 中国, CN201510525898.9



 

表彰奖励

[1].“潮流能工程微观选址及其与水沙环境耦合机理与模拟方法”获2018年度海洋工程科学技术奖二等奖(2018,排名1/6)

[2].“波流共同作用下海岸演变过程与海工动力响应研究及应用”获2018年度高等学校科学研究优秀成果奖(科学技术)科技进步奖一等奖(2018,排名3/12)

[3].“沙质海岸多尺度地貌形态动力学的基础理论与精细模拟方法”获2017年度海洋工程科学技术奖二等奖(2017,排名3/6)

[4].波浪-海工结构物-海床相互作用全动态耦合数值模拟理论与方法”获2013年度海洋工程科学技术奖二等奖(2013,排名2/6)

[5].留学生研究生课程《Coastal Engineering》入选2016年高校省级全英文授课精品课程

[6].期刊论文“An integrated model for the wave-induced seabed response around marine structures: model verifications and applications”入选《Coastal Engineering》2016年度的Highly Cited Research Paper

[7].江苏省“六大人才高峰” 第十二批高层次人才选拔培养对象(2015年)

[8].江苏省“双创计划”团队第三参加人(2015年)

[9].《海岸动力学》获国家精品资源共享课程(2013,排名4)

[10].江苏省高校“青蓝工程”科技创新团队第二参加人(2012年)

[11].“海岸动力学国家精品资源共享课的建设实践”获2017年第二届高等学校水利类专业教学成果奖一等奖(2017,排名7/8)

[12].“虚实结合,科教互动,基础与专业并重的实验教学中心发展模式的探索与实践”获2017年江苏省教学成果奖二等奖(2017,排名8/9)

[13].“新时代背景下港航工程国际化创新型人才培养的探索与实践”获2018年河海大学教学成果奖特等奖(2018,排名1/8)

 


 

学术兼职

[1].教育部高等学校海洋工程类专业教指委委员(2018.11至今)

[2].国际电工委员会海洋能转换设备标委会AHG7成员(2016.12至今)

[3].全国海洋能转换设备标准化委员会观察成员(2016.01至今)

[4].国际期刊《Journal of Marine Science and Engineering》特邀主编(2018年)

[5].国际期刊《Applied Ocean Research》编委(2018.1至今)

[6].国际期刊《Journal of Water Resource and Ocean Science》(2018.1至今)

[7].国际期刊《Journal of Energy and Power Engineering》编委(2017.1至今)

[8].国内期刊《河海大学学报(自然科学版)》编委(2018.1至今)

[9].中国海洋工程学会副秘书长

[10].中国海洋学会理事

[11].江苏省力学学会第十届理事会理事(2015.11至今)

[12].第五届江苏省青年科学家年会执行委员会委员(2014.06~2015.05)

[13].江苏战略性新兴产业发展专项资金项目评审会专家 

[14].英国土木工程师协会(Institution of Civil Engineers, UK)毕业生会员。 



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