【教育背景】

2013/09~2020/09，上海理工大学，流体机械及工程，博士

2004/09~2009/02，上海理工大学，制冷及低温工程，硕士             

2000/09~2004/06，上海理工大学，热能与动力工程，学士

【工作经历】 

       2004年6月毕业留校任教。

       历任人事处副处长、教师工作部副部长、学生工作部副部长、学生处副处长等。

       上海理工大学能源与动力工程学院 副教授、特聘博导。

【Biographies】 

She holds a doctoral degree in Fluid Machinery and Engineering, a background that provides her with a profound understanding of the fluid-structure interaction challenges inherent in massive wind turbines. Her research is primarily dedicated to advancing the design and reliability of large wind turbines, leveraging her extensive experience in key areas such as structural dynamics, active flow control, damage-resistant design, and AI-driven prognostic health management systems for critical components. This multidisciplinary expertise allows her to address complex engineering problems from a holistic perspective.

She is the member of Chinese Society of Engineering Thermophysics, Non-carbon Energy Conversion and Utilization Institute of Shanghai, the Fluid Machinery Group of Flow Control & Wind Energy (USST). She also serves as the review expert for the National Natural Science Foundation of China (NSFC), and the reviewer for several national and international journals. She has undertaken or participated in several research projects, including 10+ national and international research project funded by NSFC, state key laboratory, as well as multiple industry-sponsored collaborative projects. She has published over 40 peer-reviewed publications and has been granted 9 invention patents/software copyrights. She innovatively introduced aquatic plant bionics into the design of floating platforms, and led the team to win multiple awards (including National Outstanding Master's/Doctoral Theses, Reginal and National Sci-Tech Competition Awards, Regional Youth Innovation Awards, etc.), Moreover, she has successfully bridged teaching with research endeavors, earning numerous regional and national teaching excellence awards.

【科研项目-Research Expericence】

[1].  国家科技部，重点研发课题，主持

浮式垂直轴风力机叶片动态失速模型构建及气动性能评估，77万

Research on Dynamic Stall Model and Aerodynamic Performance of Floating Vertical-axis Wind Turbine Blades.(CNY: 770k)

Project category: National Key R&D Program of China. (Reference No. 2024******501)

Role: Principal investigator.

[2].  国家自然科学基金委员会，面上项目，主持

漂浮式海上风力机仿生平台减载增稳机理研究，62万

Research on Load Mitigation and Stability Enhancement Mechanism of offshore Wind Turbine Floating Bionic Platform .(CNY: 620k)

Project category: Natural Science Foundation of China. (Reference No. 524***12)

Role: Principal investigator.

[3]   国家自然科学基金委员会，青年项目，主持

海上风力机漂浮式平台分形与仿生新构型及动力学耦合特性研究，30万

Research on dynamic coupling characteristics of novel fractal and bionic configurations floating Platform of offshore Wind Turbine .(CNY: 300k)

Project category: Natural Science Foundation of China. (Reference No. 521***62)

Role: Principal investigator.

[4].  国家科技部，重点研发项目，参与

海上浮式垂直轴风场关键问题数学建模与大规模数值模拟，1500万

Mathematical modeling and large-scale numerical simulation of key problems of floating vertical axis wind field .(CNY: 15M)

Project category: National Key R&D Program of China. (Reference No. 2024******501)

Role: Subproject Principal investigator.

[5]. 国家自然科学基金委员会，面上项目，参与

海上风力机仿生构型支撑结构抗震抑振性能与机理研究，58万

Iestigation on Seismic Damage prevention Mechanism of New structure of Offshore Wind Turbine Tower Based on the Bionics and Fractal Theory .(CNY: 580k)

Project category: Natural Science Foundation of China. (Reference No. 519***31)

Role: Participant.

[6]. 中国电建集团华东勘测设计研究院有限公司，科研项目，参与

大型风力机叶片尺寸参数缩放推演计算及优化程序开发，80万

Development of scaling calculation and optimization program for the size parameters of large wind turbine blades.(Company cooperation ，CNY: 800k)

[7]. 华北电力科学研究院有限责任公司，科研项目，参与

风电机组塔架结构动力学分析软件开发，38.5万

Software development for dynamic analysis of wind turbine tower structure.(Company cooperation ，CNY: 385k)

[8]. 中国长江三峡集团有限公司，科研项目，参与

大型海上风电机组塔架结构动力学基础理论研究及程序开发，78.3万

Basic theoretical research and program development on the dynamics of large-scale offshore wind turbine tower structures.(Company cooperation ，CNY: 783k)

[9]. 上海市科委，地方院校能力建设专项，参与

海上风力机地震结构抗损设计关键技术与应用，100万

Key Technologies and Applications of Seismic Structural Damage Resistance Design for Offshore Wind Turbines.(Special Project of Shanghai Science and Technology Commission，CNY: 1M)

[10].国家自然科学基金委员会，面上项目，参与

深海漂浮式风力机气动弹性与水动力耦合机理及解耦算法，60万

Coupling mechanism and decoupling algorithm of aeroelasticity and hydrodynamics of deep-sea floating wind turbines.(Natural Science Foundation of China，CNY: 600K)

【代表性论著-Publications】

[1].Minnan Yue, Qingsong Liu, Chun Li, et al. Effects of heave plate on dynamic response of floating wind turbine Spar platform under the coupling effect of wind and wave, Ocean Engineering, 2020, 201: 107103.(Corresponding Author，SCI, Q1).

[2].Haoda Huang,Qingsong Liu, Minnan Yue*, Weipao Miao,  Peilin Wang, Chun Li ; Fully coupled aero-hydrodynamic analysis of a biomimetic fractal semi-submersible floating offshore wind turbine under wind-wave excitation conditions, Renewable Energy, 2022, 203: 280-300 .(Corresponding Author，SCI, Q1).

[3].Lu Xie,Chun Li,Minnan Yue*,et al.Dynamic analysis of an improved shared moorings for floating offshore wind farm[J].Renewable Energy, 2024, 232, 120963.(Corresponding Author，SCI, Q1).

[4].Haoda Huang,Qingsong Liu,Minnan Yue*,et al.Fully coupled aero-hydrodynamic analysis of a biomimetic fractal semi-submersible floating offshore wind turbine under wind-wave excitation conditions[J].Renewable Energy, 2023, 203, 280-300.(Corresponding Author，SCI, Q1).

[5].Kaicheng Zhao,Junqing Xiao,Chun Li,Zifei Xu,Minnan Yue*,et al. Fault diagnosis of rolling bearing using CNN and PCA fractal based feature extraction[J].Measurement, 2023, 223 , 113754.(Corresponding Author，SCI, Q2).

[6].Hongming Tang,Minnan Yue*,Yangtian Yan,et al.Influence of Soil−Structure Interaction Models on the Dynamic Responses of An Offshore Wind Turbine Under Environmental Loads[J].China Ocean Engineering,2023,37(2): 218-231.(Corresponding Author，SCI, Q2).

[7].岳敏楠,王博,李春,等.阵列式平台漂浮式风电场Spar平台动态响应及稳定性改进研究[J].动与冲击, 2021, 40(3): 263-278.

[8].岳敏楠,李春,郝文星,等.气动弹片对翼型气动及噪声特性的影响[J].中国机械工程, 2019, 30(12)：1409-1416.

[9].岳敏楠,丁勤卫,李春,等．风波及船舶碰撞作用下海上风力机研究进展[J].热能动力工程, 2020, 8(6)：1-17.

[10].谢露,岳敏楠*,何鸿圣,等.浮子对正交化漂浮式风电场系泊系统影响研究[J].中国电机工程学报,2023, 44(13): 5235-5246. (通讯作者)

[11].黄浩达,刘青松,岳敏楠*,等.半潜式海上漂浮式风力机气-水动全耦合分析[J].中国电机工程学报,2024, 44(11): 4367-4376. (通讯作者)

[12].范莉,岳敏楠*,何鸿圣,等.基于NAUTILUS平台的10 MW漂浮式风力机动态响应研究[J].中国电机工程学报,2024, https://doi.org/10.13334/j.0258-8013.pcsee.231340.  (通讯作者)

[13].师浩东,闫阳天,岳敏楠*,等.冲刷作用下大型单桩式风力机多物理场动力学响应分析[J].热能动力工程,2024,39(2),150-159. (通讯作者)

[14].谢露,岳敏楠*,李春,等.新型混合系泊对漂浮式阵列风电场动态响应影响[J].热能动力工程,2024,39(10),177-185. (通讯作者)

[15].Weipao Miao, Qingsong Liu, Zifei Xu, Minnan Yue, Chun Li, Wanfu Zhang ; A comprehensive analysis of blade tip for vertical axis wind turbine: Aerodynamics and the tip loss effect, Energy Conversion and Management, 2022, 253: 115140. (SCI, Q1).

[16].Zifei Xu, Xuan Mei, Minnan Yue, et al.Fault diagnosis of wind turbine bearing using a multi-scale convolutional neural network with bidirectional long short term memory and weighted majority voting for multi-sensors,Renewable Energy,2022,182:615-626.  (SCI, Q1).

[17].Qingsong Liu, Weipao Miao , Minnan Yue, et al.Dynamic Response of Offshore Wind Turbine on 3×3 Barge Array Floating Platform under Extreme Sea Conditions,China Ocean Engineering,2021,35(02):186-200. (SCI, Q2).

[18].Zifei Xu, Minnan Yue, Chun Li. Application of the proposed optimized recursive variational mode decomposition in nonlinear decomposition. ACTA PHYSICA SINICA, 2019 23(68):238401. (SCI,Q3).

【授权专利-Patents】

[1]. PS-DBN特征识别系统，2021SR******7，软件著作权

[2]. 漂浮式平台系泊智能健康监测系统， 2021SR******8，软件著作权

[3]. 计算机安全监控设备装置，202320******2，实用新型专利

[4]. 一种信息安全等级保护多功能检查工具箱， 20232******6.6，实用新型专利

[5]. 一种具有仿生分形特性的漂浮式风力机平台，20221******0.4，发明专利

[6]. 一种基于 NLP 的 Web 攻击检测方法，20211******3.X，发明专利

[7]. 一种仿生大王莲半潜式漂浮式平台，20221******7.0，发明专利