教授
当前位置: 首页 > 师资力量 > 教授 > 正文

赵恩金

浏览: 编辑: 来源: 时间:2015年08月24日 09:01


赵恩金(Dr. Enjin Zhao),男,博士,特任教授,博士生导师。目前主要从事海洋环境与资源开发方面的教学与科研工作,主要研究兴趣包括:海洋及河流水环境动力分析及岸滩演变、海洋结构物冲刷及动力响应分析、深海矿产开采、深度学习在海洋领域应用等。

• 2021年6月-至今:我校(武汉)吕氏贵宾会0022特任教授;

• 2017年7月-2021年5月:我校(武汉)吕氏贵宾会0022讲师;

• 2015年9月-2016年9月:美国纽约市立大学城市学院土木工程系,访问博士生;

• 2012年9月-2017年6月:中国海洋大学工程学院(硕博连读),获博士学位;

• 2008年9月-2012年6月:中国海洋大学工程学院,获学士学位;


★主持科研项目

•国家自然科学基金面上项目,“深海矿产采集器引发的泥沙质羽状流运动特性及导流板控制方法研究”(在研,2024-2027);

•国家自然科学基金青年基金项目,“类海啸波流作用下海底子母管线动力响应及局部冲刷耦合研究”(已结题);

•国家重点研发计划项目子课题,“立体搜寻定位装备系统与智能协同搜寻技术”(在研,2022-2025);

•国家重点研发计划项目子课题,“救捞作业关键数据协同监测与信息保障技术研究”(已结题);

•湖北省自然科学基金面上项目,“深海矿产采集器引发的沙质羽状流运动特性研究”(在研,2023-2025);

•湖北省教育厅科学技术研究计划指导性项目,“孤立波流作用下海底子母管线局部冲刷分析及研究”(已结题);

•广东省基础与应用基础研究基金项目海上风电联合基金面上项目,“半潜型浮式风机-塔筒-基础-系泊系统一体化分析与优化设计研究”(在研,2022-2025);

•中央高校基本科研业务费专项,“海底滑坡致浪机理研究”(已结题);

•中央高校基本科研业务费专项,“海洋环境污染物漂移预测模拟研究”(已结题);

•中国人民解放军海军工程大学,“海洋***建模和实验研究”(2023-2024);

•中国地质调查局海口海洋地质调查中心,“大亚湾潮汐能、波浪能资源潜力评估关键技术研发专题”(已结题);

•中海油信息科技有限公司科研项目,“基于海洋环境动力数据的分析和应用研究服务项目”(已结题);

•中海油信息科技有限公司科研项目,“海洋简化结构物动力响应模型研究”(已结题);

•浙江省河口海岸重点实验室开放基金项目、山东省海洋工程重点实验室开放基金、水沙科学与水灾害防治湖南省重点实验室开放基金项目;


★学术成果

期刊论文:

•F.Y. Jiang,E.J. Zhao*,2024. Damage mechanism and failure risk analysis of offshore pipelines subjected to impact loads from falling object, considering the soil variability.Marine Structures, 93, 103544.

• F.Y. Jiang,E.J. Zhao*, 2023. Development of a hybrid cost-based risk integrity assessment model for burst failure of pipeline systems with interacting corrosion defects.Ocean Engineering, 284, 115154.

• Z.Y. Zhang, C.H. Pan, J. Zeng, F.Y., Chen, H. Qin, K. He, K. Zhu,E.J. Zhao*, 2022. Hydrodynamics of tidal bore overflow on the spur dike and its influence on the local scour.Ocean Engineering, 266(4), 113140.

• H. Qin, J.Q. Wang,E.J. Zhao*, L. Mu, 2022. Numerical study of rogue wave forces on flat decks based on the Peregrine breather solution under finite water depth.Journal of Fluids and Structures, 114, 103744.

E.J. Zhao, X.Y. Xia, F.Y. Jiang, H.W. Tu*, 2022. Effect of porous media on wake-induced vibration (WIV) in tandem circular cylinder.Ocean Engineering, 249, 110900.

E.J. Zhao*, X.Y. Xia, J. Gao, F.Y. Jiang, X. Chen, R.L. Liu, 2022. Performance of coastal circular bridge pier under joint action of solitary wave and sea current.Ocean Engineering, 250, 111033.

• F.Y. Jiang,E.J. Zhao*, 2022. An integrated risk analysis model for corroded pipelines subjected to internal pressures: Considering the interacting effects.Ocean Engineering, 247, 110683.

• J.J. Wang, B. Shi*,E.J. Zhao, Q.Y. Yuan, X.G. Chen*, 2022. The long-term spatial and temporal variations of sediment loads and their causes of the Yellow River Basin.CATENA, 209, 105850.

E.J. Zhao, L. Mu*, Z.Y. Hu, X.Q. Wang, J.K. Sun, Z.Y. Zhang, 2021. Physical and Numerical Investigations on Wave Run-Up and Dissipation under Breakwater with Fence Revetment.Journal of Marine Science and Engineering, 9(12), 1355.

E.J. Zhao, Y.K. Dong*, Y.Z. Tang, L. Cui, 2021. Numerical study on hydrodynamic load and vibration of pipeline exerted by submarine debris flow.Ocean Engineering, 239, 109754.

• J.J. Wang, B. Shi*,E.J. Zhao, X.G. Chen*, S.P. Yang, 2022. Synergistic effects of multiple driving factors on the runoff variations in the Yellow River Basin, China.Journal of Arid Land, 13, 835-857.

• Y.Z. Tang, Y. Wang*,E.J. Zhao*, J.J. Yi, K.C. Feng, H.B. Wang, W.H., Wang, 2021. Study on Hydrodynamic Characteristics and Environmental Response in Shantou Offshore Area.Journal of Marine Science and Engineering, 9(8), 912.

• S. Wang, L. Mu*, M.N. Qi*, Z.K. Yu, Z.F. Yao,E.J. Zhao, 2021. Quantitative risk assessment of storm surge using GIS techniques and open data: A case study of Daya Bay Zone, China.Journal of Environmental Management, 289, 112514.

E.J. Zhao, L. Mu, H.Y. Jiang*, 2021. Amphidromic Lines in the Atmosphere: An Example of Global Pressure Field Annual Harmonic.Earth and Space Science, 8(4), e2021EA001638.

E.J. Zhao*, Y.K. Dong, Y.Z. Tang, X.Y. Xia, 2021. Performance of submerged semi-circular breakwater under solitary wave in consideration of porous media.Ocean Engineering, 223, 108573.

E.J. Zhao, Y.K. Dong*, Y.Z. Tang, J.K. Sun, 2021. Numerical investigation of hydrodynamic characteristics and local scour mechanism around submarine pipelines under joint effect of solitary waves and currents.Ocean Engineering, 222, 108553.

• S. Wang, L. Mu*, Z.F. Yao, J. Gao,E.J. Zhao, L.Z. Wang, 2021. Assessing and zoning of typhoon storm surge risk with a geographic information system (GIS) technique: a case study of the coastal area of Huizhou.Natural Hazards and Earth System Sciences, 21, 439-462.

•赵飞达,王在峰,宋积文,孙均楷,董友扣,赵恩金*, 2021.低雷诺数下海底悬空子母管线绕流特性研.海洋湖沼通报, 2021, 43(6), 34-42.

•孙均楷,赵恩金*,拾兵, 2021.孤立波作用下海底管道受力的CFD分析.海洋湖沼通报, 2021, 43(5), 17-24.

E.J. Zhao, J.K. Sun, Y.Z. Tang, L. Mu*, Haoyu Jiang*, 2020. Numerical investigation of tsunami wave impacts on different coastal bridge decks using immersed boundary method.Ocean Engineering, 201, 107132.

• L. Mu,E.J. Zhao, Y.W. Wang*, A.Y. Zomaya, 2020. Buoy Sensor Cyberattack Detection in Offshore Petroleum Cyber-Physical Systems.IEEE Transactions on Services Computing, 13(4), 653-662.

E.J. Zhao, Y.Z. Tang, J. Shao, L. Mu*, 2020. Numerical Analysis of Hydrodynamics around Submarine Pipeline End Manifold (PLEM) under Tsunami-like Wave.IEEE Access, 7, 178903-178917.

E.J. Zhao, J.K. Sun, H.Y. Jiang, L. Mu*, 2019. Numerical study on the hydrodynamic characteristics and responses of moored floating marine cylinders under real-world tsunami-like waves.IEEE Access, 7, 122435-122458.

E.J. Zhao, L. Mu*, H. Qin, H.Y. Jiang, 2019. Study on dynamic slope angle of sandy seabed around the submarine piggyback pipeline in steady flow.Journal of Marine Engineering & Technology, 20(5), 324-336.

E.J. Zhao, K. Qu, L. Mu*, 2019. Numerical study of morphological response of the sandy bed after tsunami-like wave overtopping an impermeable seawall.Ocean Engineering, 186, 106076.

E.J. Zhao, K. Qu, L. Mu*, S. Kraatz, B. Shi, 2019. Numerical Study on the Hydrodynamic Characteristics of Submarine Pipelines under the Impact of Real-World Tsunami-Like Waves.Water, 11(2), 221.

赵恩金,徐照研*,潘新颖,梁丙臣, 2019.人工沙滩与潜堤结合岸滩防护工程数值研究.中国海洋大学学报(自然科学版). 49(6), 119-125

E.J. Zhao, B. Shi, K. Qu*, W.B. Dong, J. Zhang, 2018. Experimental and Numerical Investigation of Local Scour around Submarine Piggyback Pipeline under Steady Currents.Journal of Ocean University of China, 17(2), 244-256.

E.J. Zhao, L. Mu, K. Qu*, B. Shi, X.Y. Ren, C.B. Jiang, 2018. Numerical investigation of pollution transport and environmental improvement measures in a tidal bay based on a Lagrangian particle-tracking model.Water Science and Engineering, 11(1), 23-38.

赵恩金,拾兵*,曹坤, 2016.导流板对海底管线涡激振动的影响.哈尔滨工程大学学报, 37(3), 320-325.

赵恩金,拾兵*,张靖,刘静, 2014.唐岛湾水动力交换与强化措施的数值研究.海洋湖沼通报, 3, 44-50.

著作:

赵恩金,姜逢源,卢洪超,陈少庆.海洋工程流体力学实验指导书.我校出版社2023.

E.J. Zhao, L. Mu, H. Qin. Advances in Applied Marine Sciences and Engineering. Switzerland: MDPI books, 2023.

• L. Mu*,E.J. Zhao. Chapter 11 The Optimization of Maritime Search and Rescue Simulation System Based on CPS. Big Data Analytics for Cyber-Physical Systems, Springer Nature Switzerland AG. 2020.

•牟林,宋军,赵恩金.港口航运海洋环境信息保障技术及应用,电子工业出版社,2017.

专利:

•涂海文,牟林,梁泽辉,夏凯,赵恩金.一种水下自平衡商用航行器及其外壳结构, ZL 202111551012.X.

•涂海文,孙江龙,夏凯,牟林,赵恩金.一种基于机器学习的集装箱船纵倾优化方法,发明专利, ZL 202111523517.5.

•涂海文,牟林,王铎,夏凯,赵恩金,吴怡彬.一种水下作业机器人,实用新型专利, ZL 202123042594.7.

•蒋浩宇,牟林,赵恩金,程飞,高佳.一种海浪场时空演化信息提取方法及系统,CN 111222531 B.

•牟林,孙均楷,赵恩金,王道胜.基于机载SAR监测的海上溢油漂移动态预测方法及系统. CN 110346795 B.

•郑海城,拾兵,赵恩金等.一种抑制水下管线涡激振动的装置. CN 205259966 U.

赵恩金,刘文沛,拾兵等.可控浪流耦合发生装置. CN 205538155 U.

赵恩金,拾兵,黄修筠.水下管线导流抑振装置. CN 204357372 U.


★获奖情况

• 2019年,“智能化海上溢油预警预测技术与应用示范”获海洋科学技术奖一等奖,中国海洋学会,(排名:10);

• 2019年,“海上溢油应急信息保障关键技术研究与应用示范”获中国产学研合作创新成果奖一等奖,中国产学研合作促进会,(排名:10);


★指导学生

•硕士研究生国家奖学金;

•校优秀硕士毕业论文;

•校优秀本科毕业论文;

•“全国研究生数学建模竞赛”全国一等奖;

•中国国际“互联网+”大学生创新创业大赛国家级铜奖、省级金奖;

•全国海洋航行器设计与制作大赛全国特等奖;

•全国大学生电子商务“创新、创意及创业”挑战赛省级一等奖;


★招生要求

•目前,对学生要求较为严格,要求研究生每周在课题上投入足够的时间(40小时以上),每周以书面形式汇报进展并一对一讨论;

•除国家法定假日外,课题组学生每年仅享有1.5个月的假期(寒假2周,暑假2周,其它请假时间2周,灵活申请);

•研究方向必须和本课题组主要研究方向一致,如果不感兴趣,请不要选择;

•研究生必须勤奋踏实,学习态度认真、积极上进,不怕麻烦,能够自我督促;

•请各位报考本人的学生慎重考虑是否能保证以上四条招生要求,以免相互伤害。


★联系方式

地址:湖北省武汉市洪山区鲁磨路388号我校吕氏贵宾会0022(邮编:430074)

邮箱:zhaoejATcug.edu.cn

网页:https://www.researchgate.net/profile/Enjin-Zhao