基本信息
殷锴,博士,副研究员,博士生导师,交通学院港航工程系教师
所属团队:河流海洋研究中心
办公地点:东南大学九龙湖校区交通学院601室
联系方式:kyin@seu.edu.cn
研究方向
海岸植被消浪与生态防护
河流海岸水动力与数值模拟
海洋灾害数值模拟与防灾减灾
工作经历
2024.08至今,东南大学交通学院,博士生导师
2023.12至今,东南大学交通学院,副研究员
2020.01-2023.11,东南大学交通学院,博士后,合作导师:林鸣院士、徐宿东教授
教育经历
2015-2019,东南大学,交通运输工程,博士,导师:徐宿东教授
2017-2018,美国佛罗里达州立大学,联合培养博士,导师:Wenrui Huang教授
2013-2015,东南大学,水利工程,硕士,导师:徐宿东教授
2009-2013,东南大学,港口航道与海岸工程,学士
科研项目
国家自然科学基金面上项目,近岸斜坡波生流环境中柔性非淹没植被消浪机制研究,2025-2028,主持
国家自然科学基金青年项目,海岸非线性波环境中柔性非淹没植被的消浪机制研究,2022-2024,主持
江苏省自然科学基金青年基金项目,江苏沿海柔性非淹没植被环境中非线性波衰减机制研究,2021-2024,主持
中国博士后科学基金特别资助(站中)项目,海岸柔性非淹没植被与非线性波相互作用机制研究,2022-2023,主持
中国博士后科学基金面上资助项目,海岸柔性植被与水流环境中波浪传播特性研究,2020-2023,主持
奖励荣誉
2023年中国航海学会科技进步一等奖,排9/15
2022年中国航海学会科技进步二等奖,排2/10
期刊论文
Yin Kai, Xu Sudong, Huang Wenrui, Xu Hui, Lu Yingxiang, Ma Mengdi, 2024. A study on the drag coefficient of emergent flexible vegetation under regular waves, Ocean Modelling, 191:102422
Yin Kai, Xu Sudong, Huang Wenrui, Lin Ming, 2023. Experimental and numerical investigation of wave-induced dynamics of emergent flexible vegetation, Ocean Engineering, 289: 116155
Yin Kai, Lin Ming, Xu Sudong, Hao Jianxin, Mao Liuyan, Li Mengqi, 2023. Numerical investigation of submerged flexible vegetation dynamics and wave attenuation under combined waves and following currents, Ocean Engineering, 278: 114437.
Liu Shuo, Xu Sudong, Yin Kai, 2023. Optimization of the drag coefficient in wave attenuation by submerged rigid and flexible vegetation based on experimental and numerical studies, Ocean Engineering, 285:115382.
Yin Kai, Xu Sudong, Gong Shangpeng, Chen Jie, Wang Yiran, Li Mengqi, 2022. Modeling wave attenuation by submerged flexible vegetation with XBeach phase-averaged model, Ocean Engineering, 257: 111646.
Yin Kai, Xu Sudong, Gong Shangpeng, Zhou Runpu, Wang Yiran, 2021. Effects of wave nonlinearity on submerged flexible vegetation dynamics and wave attenuation, Ocean Engineering, 241:110103.
Yin Kai, Xu Sudong, Huang Wenrui, Liu Shuo, Li Mingxuan, 2021. Numerical investigation of wave attenuation by coupled flexible vegetation dynamic model and XBeach wave model, Ocean Engineering, 235:109357.
Yin Kai, Xu Sudong, Zhao Quan, Zhang Nini, Li Mengqi, 2021. Effects of sea surface warming and sea level rise on tropical cyclone and inundation modeling at Shanghai coast, Natural Hazards, 109:755–784.
Yin Kai, Xu Sudong, Zhu Xinghua, Huang Wenrui, Liu Shuo, 2021. Estimation of spatial extreme sea levels in Xiamen seas by the quadrature JPM-OS method, Natural Hazards, 106(1): 327-348.
Huang Wenrui, Yin Kai, Ghorbanzadeh Mahyar, Ozguven Eren, Xu Sudong, Vijayan Linoj, 2021. Integrating storm surge modeling with traffic data analysis to evaluate the effectiveness of hurricane evacuation, Frontiers of Structural and Civil Engineering, 15(6): 1301–1316.
Vijayan Linoj, Huang wenrui, Yin Kai, Ozguven Eren, Burns Simone, Ghorbanzadeh Mahyar, 2021. Evaluation of parametric wind models for more accurate modeling of storm surge: a case study of Hurricane Michael, Natural Hazards, 106(3): 2003–2024.
Yin Kai, Xu Sudong, Zhao Quan, Huang Wenrui, Yang Ke, Guo Meiting, 2020. Effects of land cover change on atmospheric and storm surge modeling during typhoon event, Ocean Engineering, 199:106971.
Xu Sudong, Ma mengdi, Yin Kai, Tang Shuang, 2020. Risk Evaluation System of Navigation Security Based on Coupled Wind and Wave Model: A Case of Study of Qiongzhou Strait, IET Intelligent Transport Systems, 14(10): 1311-1318.
Yin Kai, Xu Sudong, Huang Wenrui, Li Rui, Xiao Hong, 2019. Modeling beach profile changes by typhoon impacts at Xiamen coast, Natural Hazards, 95(3):783-804.
Yin Kai, Xu Sudong, Huang Wenrui, 2018. Estimating extreme sea levels in Yangtze Estuary by quadrature Joint Probability Optimal Sampling Method, Coastal Engineering, 140:331-341.
Yin Kai, Xu Sudong, Huang Wenrui, Xie Yang, 2017. Effects of sea level rise and typhoon intensity on storm surge and waves in Pearl River Estuary, Ocean Engineering, 136(15):80-93.
Yin Kai, Xu Sudong, Huang Wenrui, 2016. Modeling sediment concentration and transport induced by storm surge in Hengmen Eastern Access Channel, Natural Hazards, 82(1): 617-642.