姓名:李良
职称:英才教授(第一层次)
所在单位(系、所、中心等):工程学院海洋工程系
通讯地址:青岛市崂山区松岭路238号中国海洋大学工程学院
电子信箱:liang.li@ouc.edu.cn
个人网站:https://www.researchgate.net/profile/Liang-Li-68
学习经历:
[1] 2016-2至2019-3, 斯特拉斯克莱德大学, 船舶与海洋工程, 博士。
[2] 2012-9至2015-3, 上海交通大学, 船舶与海洋工程, 硕士。
[3] 2007-9至2011-6, 上海交通大学, 船舶与海洋工程,学士。
工作经历:
[1] 2022-3至今, 中国海洋大学, 工程学院, 教授
[2] 2020-4至2022-1, 斯特拉斯克莱德大学, 船舶与海洋工程学院, 讲师
[3] 2018-10至2020-3, 斯特拉斯克莱德大学, 船舶与海洋工程学院, 博士后
研究方向:
[1]海洋可再生能源多能互补
[2]波浪能发电装置智能控制
[3]海上浮式风机一体化全耦合分析与数值建模
[4]超大型浮体水弹性
[5]新型海洋可再生能源模型试验技术
科研项目:
[1]国家自然科学基金,面上项目,42576246,基于实时变阻抗控制的风浪融合机组互馈增益研究,2026-01至2029-12,在研,主持
[2]山东省自然科学基金,面上项目,ZR2025MS843,惯容调谐-伺服控制下的风浪联合机组互馈增益研究,2025-10至2028-09,在研,主持。
[3]山东省科技厅,领军人才配套,2024GJJLJRC-042,海洋能规模化利用,2024-01至2028-12,在研,主持。
[4]爱丁堡皇家学会, 联合和国气候峰会(COP26)研究基金,1012,2021-04至2021-12,Numerical and Experimental Investigations on Hybrid Exploitation of Offshore Renewable Energy to Reduce Carbon Emission,结题,主持。
[5]英国皇家学会,英国皇家学会与自然科学基金委员会合作交流项目,IEC\NSFC\201003,Coupled aero-hydro-elastic analysis of next-generation very large multi-purpose offshore floating platforms for blue economy,2021-03至2022-01,结题,主持。
[6]英国工程与自然科学研究理事会海洋可再生能源中心,青年学者研究基金,Innovative and cross-disciplinary wave energy research, aiming to develop a revolutionary Smart Control Algorithm (SCA), 2021-03至2021-12,结题,主持。
[7]山东省海洋工程重点实验室,开放基金,SKLOE-01,多能海洋可再生能源系统的理论与实验研究,2020-09至2022-08,在研,主持。
[8]水利工程仿真与安全国家重点实验室,开放基金,HESS-1919,人工智能控制在多功能海洋可再生能源系统上的应用,2019-12至2021-12,结题,主持。
[9]海岸和近海工程国家重点实验室,开放基金,LP1908,多浮体波浪能装置的人工智能控制,2019-06至2021-12,结题,主持。
[10]英国能源合作组织,青年学者研究基金,PECRE31,Real-time spectral control of wave energy converter with consideration of wave force prediction,2018-07至2018-09,结题,主持。
学术奖励与荣誉:
[1] 首届国家优秀青年基金(海外人才项目)获得者
[2]中国工程院工程前沿杰出青年学者
[3]ISOPE Scholarship for Outstanding Students, International Society of Offshore and Polar Engineers, 2018
[4]Poster Competition Award, Committee of OCEANS'18 Conference, 2018
[5]Outreach for Engineers Specialty Forum Scholarship, The American Society of Mechanical Engineers, 2019
学术兼职:
[1]英国皇家造船工程师协会会员
[2]英国高等教育中级认证证书。
[3]《China Ocean Engineering》青年编委
[4]《海洋工程》青年编委
代表性论文:
[1]Liang Li; Yan Gao*; Development of a real-time wave energy control with consideration of control latency, Energy, 2023, 277: 127686.
[2]Liang Li*; Full-coupled analysis of offshore floating wind turbine supported by very large floating structure with consideration of hydroelasticity, Renewable Energy, 2022, 189: 790-799
[3]Liang Li*; Yan Gao; Dezhi Ning; Zhiming Yuan; Development of a constraint non-causal wave energy control algorithm based on artificial intelligence, Renewable & Sustainable Energy Reviews, 2021, 138: 110519.
[4]Liang Li; Yuanchuan Liu*; Short-crestedness effect on the dynamic response of offshore floating wind turbines, Ships and Offshore Structures, 2022, 17(10): 2272-2281
[5]Liang Li; Hongdong Wang*; Yan Gao; Development of a Real-Time Latching Control Algorithm Based on Wave Force Prediction, IEEE Journal of Oceanic Engineering, 2021, 46(2): 583-593.
[6]Liang Li*; Zhen Gao; Maximization of wave power extraction of a heave point absorber with a sea-state-based causal control algorithm, Energy, 2020, 204: 117881.
[7] Liang Li; Xiantao Zhang; Zhiming Yuan*; Yan Gao; Multi-stable mechanism of an oscillating-body wave energy converter, IEEE Transactions on Sustainable Energy, 2020, 11(1): 500-508.
[8]Liang Li*; Carlo Ruzzo; Maurizio Collu; Yan Gao; Giuseppe Failla; Felice Arena; Analysis of the coupled dynamic response of an offshore floating multi-purpose platform for the Blue Economy, Ocean Engineering, 2020, 217: 107943.
[9]Liang Li; Zhiming Yuan*; Yan Gao; Xinshu Zhang; Tahsin Tezdogan; Investigation on long-term extreme response of an integrated offshore renewable energy device with a modified environmental contour method, Renewable Energy, 2019, 132: 33-43.
[10]Liang Li; Zhiming Yuan*; Yan Gao; Xinshu Zhang; Wave Force Prediction Effect on the Energy Absorption of a Wave Energy Converter With Real-Time Control, IEEE Transactions on Sustainable Energy, 2019, 10(2): 615- 624.
[11]Liang Li; Zhen Gao; Zhiming Yuan*; On the sensitivity and uncertainty of wave energy conversion with an artificial neural-network-based controller, Ocean Engineering, 2019, 183: 282-293.
[12]Liang Li; Zhiming Yuan; Chunyan Ji*; Yan Gao; Resonant waves in the gap between two advancing barges, European Journal of Mechanics - B/Fluids, 2019, 77: 108-117.
[13]Liang Li; Yuanchuan Liu; Zhiming Yuan*; Yan Gao; Dynamic and structural performances of offshore floating wind turbines in turbulent wind flow, Ocean Engineering, 2019, 179: 92-103.
[14]Liang Li; Yan Gao; Zhiming Yuan*; Sandy Day; Zhiqiang Hu; Dynamic response and power production of a floating integrated wind, wave and tidal energy system, Renewable Energy, 2018, 116, Part A: 412-422.
[15]Liang Li; Zhiming Yuan*; Yan Gao; Wash wave effects on ships moored in ports, Applied Ocean Research, 2018, 77: 89-105.
[16]Liang Li; Yan Gao*; Zhiqiang Hu; Zhiming Yuan; Sandy Day; Haoran Li; Model test research of a semisubmersible floating wind turbine with an improved deficient thrust force correction approach, Renewable Energy, 2018, 119: 95-105.
[17]Liang Li; Zhengshun Cheng; Zhiming Yuan*; Yan Gao; Short-term extreme response and fatigue damage of an integrated offshore renewable energy system, Renewable Energy, 2018, 126: 617-629.
[18]Liang Li; Zhiming Yuan*; Yan Gao; Maximization of energy absorption for a wave energy converter using the deep machine learning, Energy, 2018, 165, Part A: 340-349.
[19]Liang Li; Yuanchuan Liu; Zhiming Yuan*; Yan Gao; Wind field effect on the power generation and aerodynamic performance of offshore floating wind turbines, Energy, 2018, 157: 379-390.
[20]Liang Li; Zhiming Yuan; Chunyan Ji*; Mingxin Li; Yan Gao; Investigation on the unsteady hydrodynamic loads of ship passing by bridge piers by a 3-D boundary element method, Engineering Analysis with Boundary Elements, 2018, 94: 122-133.
[21]Liang Li; Zhiming Yuan; Chunyan Ji*; Yan Gao; Ultimate structural and fatigue damage loads of a spar-type floating wind turbine, Ships and Offshore Structures, 2018, 14(6): 582-588.
发明专利:
[1]李良,季兴达,李华军;一种用于双单元波能阵列的分布式离合控制方法,ZL 2025 1 0778994.8
[2]李良,季兴达,李华军;一种用于阵列化波浪能转换装置的集中式离合控制方法,ZL 2025 1 0778995.2
