姓名:刘福顺
职称/职务:教授、博导,副院长
专业:船舶与海洋工程
所在系(所、中心):工程学院海洋工程系
通讯地址:青岛松岭路238号 中国海洋大学工程学院
电子信箱:percyliu@ouc.edu.cn
办公室电话:0532-66783720
传真:0532-66781550
u 主要学历:
[1] 2000-2002,济南大学,土木工程,工学学士
[2] 2002-2005,青岛理工大学,结构工程,工学硕士
[3] 2005-2008,中国海洋大学,港口、海岸及近海工程,工学博士
u 学术经历:
[1] 2008.07-2010.12,中国海洋大学工程学院,讲师
[2] 2011.01-2015.11,中国海洋大学工程学院,副教授
[3] 2013.09-2014.09,University of Rhode Island,访问学者
[4] 2015.12-至今,中国海洋大学工程学院,教授
u 研究方向:
围绕海洋平台、海上风电等高端海工装备设计运维中的技术难点,主要聚焦以下几个方面:
[1] 海工结构动力耦合分析方法及数字孪生
[2] 海工结构大数据处理技术及工程应用
[3] 海工结构安全性能实时追踪及评估技术
[4] 浮式平台、浮式风电耦合分析方法及系统构建
[5] 多源海上试验数据平台构建及关键设备研发
u 讲授课程:
[1] 本科生课程:钢结构设计基本原理
[2] 研究生课程:专业前沿讲座、学术论文指导
u 主持科研项目:
[1] 国家杰出青年科学基金,海工结构动力分析方法与安全检测技术,2022/01-2026/12
[2] 国家自然科学基金-山东联合基金,深海浮式平台Laplace域动力分析方法研究及系统构建,2019/01-2022/12
[3] 国家优秀青年科学基金,海洋结构损伤诊断基础理论与应用技术,2016/01-2018/12
[4] 国家自然科学基金面上项目,基于附加水动力振动反演的深海平台半隐耦合方法及试验研究,2013/01-2016/12
[5] 国家自然科学基金青年基金,非传统阻尼条件下海洋平台阻尼损伤评估及试验研究,2013/01-2016/12
u 学术兼职:
[1] International Journal of Ocean and Coastal Engineering,副主编
[2] 山东省船舶工业行业协会常务理事
u 奖励及荣誉:
[1] 教育部科技进步二等奖
[2] “山东省泰山学者”青年专家
[3] 第十届青岛市青年科技奖
u 主要学术成果:
•专著/教材:
[1] 海洋平台结构模态分析与损伤检测,李华军、刘福顺、王树青,国家科学技术学术出版基金资助出版,科学出版社,2017年2月。
[2] 船舶与海洋工程结构力学,黄维平、刘福顺,普通高等教育“十二五”规划教材,中国出版集团现代教育出版社,2012年2月。
•代表性学术论文:
[1] Fushun Liu, Shujian Gao, Shuang Chang. Displacement estimation from measured acceleration record for fixed offshore structures. Applied ocean research, 2021, 113, 102741.
[2] Shujian Gao, Fushun Liu∗, Chunyu Jiang. Improvement study of modal analysis for offshore structures based on reconstructed displacements, Applied Ocean Research, 2021, 110, 102596.
[3] Yuanchuan, Liu; Fushun, Liu*; Enhao, Wang; Qing, Xiao; Liang, Li; The effect of base column on vortex-induced vibration of a circular cylinder with low aspect ratio, Ocean Engineering, 2020, 196:106822 .
[4] Fushun, Liu; Shujian, Gao; Zhe, Tian; Dianzi, Liu; A new time-frequency analysis method based on single mode function decomposition for offshore wind turbines, Marine Structures, 2020, 72:102782.
[5] Fushun, Liu; Shujian, Gao; Dianzi, Liu; Hu, Zhou; A signal decomposition method based on repeated extraction of maximum energy component for offshore structures, Marine Structures, 2020, 72.
[6] Fushun, Liu; Qiang, Fu; Zhe, Tian; A Laplace-domain method for motion response estimation of floating structures based on a combination of generalised transfer function and partial fraction, Ships and Offshore Structures, 2020, 15(8): 829-843.
[7] Fushun, Liu; Shujian,Gao; Huawei, Han; Zhe, Tian; Peng, Liu; Interfere nce reduction of high-energy noise for modal parameter identification of offshore wind turbines based on iterative signal extraction, Ocean Engineering, 2019, 183: 372-383.
[8] Fushun, Liu; Zhe, Tian; Bin, Wang; Peng, Liu; Xide, Cheng; Zhixiong, Li; A new residue-based dynamic analysis method for offshore structures with non-zero initial conditions, Ocean Engineering, 2018, 162: 138-149.
[9] Fushun, Liu; Qi, Yang; Huajun, Li; Wei, Li; Bin, Wang; Discrepancy study of modal parameters of a scale jacket-type supporting structure of 3.0-MW offshore wind turbine in water and in air, Renewable Energy, 2016, 89: 60-70.
[10] Fushun, Liu; Hongchao, Lu; Huajun, Li; Dynamic analysis of offshore structures with non-zero initial conditions in the frequency domain, Journal of Sound and Vibration, 2016, 366: 309-324.
•发明专利:
[1] 海工结构Laplace域动力响应瞬态分离技术, ZL201911258090.3.
[2] 一种基于极值-留数分解的海洋平台振动响应消噪算法, ZL201710795081.2.
[3] 一种基于条件传递的海洋结构流固耦合动力响应算法, ZL201711434980.6.
[4] 非经典结构动力响应频域方法, ZL201610008351.6.
[5] 老龄海洋平台阶段性结构损伤评估方法, ZL201310435854.8.
• 参编规范/标准:
[1] 海上风电工程基桩检测技术规程, T/CSRME 002-2019;
[2] 海上固定平台振动检测与结构安全评估指南,GD 09-2014
Liu Fushun
Title: Professor
Department: Ocean Engineering
Address: College of Engineering, Ocean University of China
238 Songling Road, Qingdao, P. R. China, 266100
Office Phone: 86-532-66783720
E-mail: percyliu@ouc.edu.cn
Education
[1] 2005.9–2008.6, Ocean University of China, Ph. D. in Harbor, Coastal and offshore Engineering
[2] 2002.9–2005.6, Qingdao University of Technology, Eng. M. in Structural Engineering
[3] 2000.9–2002.6, University of Jinan, Eng. B. in Civil Engineering
Work Experience:
[1] 2015.12–Now, Professor, College of Engineering, Ocean University of China
[2] 2013.09–2014.09, Visiting Scholar, University of Rhode Island, United States
[3] 2011.01–2015.11, Associate Professor, College of Engineering, Ocean University of China
[4] 2008.07–2010.12, Lecturer, College of Engineering, Ocean University of China
Research Interests:
Aiming to tackle the technical issues encountered in the design and O&M of high-end offshore equipment such as offshore platforms and wind turbines, we primarily focus on the following aspects:
[1] Coupled dynamic analysis methods and digital twin of offshore structures
[2] Big data processing technology and its application to offshore structures
[3] Real-time monitoring and evaluation techniques for safety performance of offshore structures
[4] Establishment of fully coupled analysis methods for floating platforms and floating offshore wind turbines
[5] Establishment of a multi-source offshore test platform and R&D of key equipment
Selected Publications:
[1] Fushun Liu, Shujian Gao, Shuang Chang. Displacement estimation from measured acceleration record for fixed offshore structures. Applied ocean research, 2021, 113, 102741.
[2] Shujian Gao, Fushun Liu∗, Chunyu Jiang. Improvement study of modal analysis for offshore structures based on reconstructed displacements, Applied Ocean Research, 2021, 110, 102596.
[3] Yuanchuan, Liu; Fushun, Liu*; Enhao, Wang; Qing, Xiao; Liang, Li; The effect of base column on vortex-induced vibration of a circular cylinder with low aspect ratio, Ocean Engineering, 2020, 196:106822 .
[4] Fushun, Liu; Shujian, Gao; Zhe, Tian; Dianzi, Liu; A new time-frequency analysis method based on single mode function decomposition for offshore wind turbines, Marine Structures, 2020, 72:102782.
[5] Fushun, Liu; Shujian, Gao; Dianzi, Liu; Hu, Zhou; A signal decomposition method based on repeated extraction of maximum energy component for offshore structures, Marine Structures, 2020, 72.
[6] Fushun, Liu; Qiang, Fu; Zhe, Tian; A Laplace-domain method for motion response estimation of floating structures based on a combination of generalised transfer function and partial fraction, Ships and Offshore Structures, 2020, 15(8): 829-843.
[7] Fushun, Liu; Shujian,Gao; Huawei, Han; Zhe, Tian; Peng, Liu; Interfere nce reduction of high-energy noise for modal parameter identification of offshore wind turbines based on iterative signal extraction, Ocean Engineering, 2019, 183: 372-383.
[8] Fushun, Liu; Zhe, Tian; Bin, Wang; Peng, Liu; Xide, Cheng; Zhixiong, Li; A new residue-based dynamic analysis method for offshore structures with non-zero initial conditions, Ocean Engineering, 2018, 162: 138-149.
[9] Fushun, Liu; Qi, Yang; Huajun, Li; Wei, Li; Bin, Wang; Discrepancy study of modal parameters of a scale jacket-type supporting structure of 3.0-MW offshore wind turbine in water and in air, Renewable Energy, 2016, 89: 60-70.
[10] Fushun, Liu; Hongchao, Lu; Huajun, Li; Dynamic analysis of offshore structures with non-zero initial conditions in the frequency domain, Journal of Sound and Vibration, 2016, 366: 309-324.
