2022-04-19
登录入口水利工程学院研究生导师基本信息表 |
||||
1、个人基本信息: |
||||
姓 名:许从昊 |
性 别:男 |
|||
出生年月:1989.09 |
技术职称:中级 |
|||
毕业院校:夏威夷大学 |
学历(学位):博士 |
|||
所在学科:港口、航道与近海工程 |
||||
2、学习和工作经历: |
||||
2018.12 |
2019.07 |
University of Hawaii at Manoa 博士后 |
||
2014.01 |
2018.12 |
University of Hawaii at Manoa 博士 |
||
2011.08 |
2013.12 |
Nanyang Technological University 博士在读 |
||
2007.08 |
2011.06 |
登录入口 学士 |
||
3、目前研究领域: |
||||
许从昊博士主要围绕海洋清洁能源、波浪与海岸和海洋结构物相互作用的试验与数值仿真以及海洋观测系统研发等方面开展研究,具体研究兴趣包括: 1. 波浪能发电装置; 2. 波浪与海岸、海洋结构物的相互作用; 3. 泥沙输运与泥沙运动力学的实验与多相流数值仿真; 4. 计算流体力学与高性能计算在海岸动力领域的应用; 5. 新型智能算法(机器学习、数据挖掘与可视化)及其在海洋和海岸学科中的应用; 6. 人工冲浪礁与冲浪板水动力学; 7. 海洋原位观测系统研发。 |
||||
4、主持在研或已完成主要课题: |
||||
纵向课题: 1. 国家自然科学基金青年项目,群桩式波浪能装置附近水沙动力特性及其对岸滩演变影响研究,2021-2023,在研,主持; 2. 国家重点研发计划专项项目子课题,**海岸防护工程应用,2021-2025,在研,主持; 3. 国家重点研发计划专项项目课题,**海岸构型及材料研发,2021-2025,在研,参与; 4. 国家重点研发计划子课题,可移动式码头后方导流技术与装备研发,2022-2024,在研,参与; 5. 国家自然科学基金面上项目,岸礁剖面珊瑚砂输运及其对工程活动响应机制研究,2020-2023,在研,参与; 6. 国家自然科学基金面上项目,高强度扰动下南海北部海岸带动力过程和地貌响应机制,2022-2025,在研,参与; 7. 美国国家科学基金项目,Controlling Cross-shore Sediment Transport by Integrating Pile Breakwaters with Wave Energy Converters for Sustainable Coastal Management,2017-2021,结题,参与 |
||||
5、主要科研成果(发表学术论文、出版著作、授权发明专利): |
||||
代表性论著(选取10篇) (1) Xu, C., Huang, Z.; A dual-functional wave-power plant for wave energy extraction and shore protection: An experimental proof of concept study. Applied Energy,2018, 229:963-976. (2) Xu C, Huang Z.; Three-dimensional CFD simulation of a circular OWC with a nonlinear power-takeoff: Model validation and a discussion on resonant sloshing inside the pneumatic chamber. Ocean Engineering, 2019, 176:184-98. (3) Xu, C., Huang, Z., & Deng, Z.; Experimental and theoretical study of a cylindrical oscillating water column device with a quadratic power take-off model. Applied Ocean Research, 2016, 57:19–29. (4) Xu, C., Huang, Z., Yao, Yu.; A wave-flume study of scour at a pile breakwater: solitary waves, Applied Ocean Research, 2018, 82:89-108. (5) Xu, C., Yao, Y., Guo, T., Deng, Z.; Study of flow characteristics around a row of oscillating water column pile under regular waves, Journal of Zhejiang University (Engineering Science), 2021, 55(7), 1308-1316. (6) Xu, C., Huang, Z.; An OpenFOAM-based two-phase flow model for simulating three-dimensional oscillating-water-column devices: model verification and validation, The 13th OpenFOAM workshop, 2018. (7) Yao, Y., Chen, X., Xu, C.,* Jia, M., Jiang, C.; Numerical modelling of wave transformation and runnup over rough fringing reefs using VARANS equations, Applied Ocean Research, 2022, 118, 102952. (8) Yao, Y., Chen, X., Xu, C.*, et al.; Modeling solitary wave transformation and run-up over fringing reefs with large bottom roughness, Ocean Engineering, 2020, 218(9):108208. (9) Lee, C.-H., Xu, C., and Huang, Z.; A three-phase flow simulation of local scour caused by a submerged wall jet with a water-air interface. Advances in Water Resources, 2019, 129:373-384. (10)Huang, Z., Huang, S., Xu, C.; Characteristics of the flow around a circular OWC-type wave energy converter supported by a bottom-sitting C-shaped structure, Applied Ocean Research, 2020, 101(3):102228. |
||||
6、所获学术荣誉及学术影响: |
||||
(1) 2019年度中国航海科技奖一等奖,中国航海学会,珊瑚礁海岸防灾减灾机理与关键技术研究,第九完成人 (2) 亚太地球科学学会(AOGS)会员(2018) (3) 中国航海学会科普专家(2021) (4) Renewable Energy, Applied Ocean Research等国内外著名期刊审稿人 (5) 指导学生获得国家级创新项目立项1项,省级创新项目立项1项,校级创新项目2项,国家级科创奖项一等奖1项,省级、校级科创与学科竞赛奖项合计3项.
|
||||
7、联系电话: 联系邮箱:conghaox@163.com 欢迎有兴趣的考生报考:具备一定的Matlab/C++/Python或其他程序设计语言的编程基础或有编程学习意愿、英语水平良好者优先。欢迎学科交叉/理工科跨考考生。 |