船舶与海洋工程系
电子邮件:wenbinrong@sjtu.edu.cn
通讯地址:上海市闵行区东川路800号be365体育平台木兰楼B709
个人主页:https://www.researchgate.net/profile/Binrong_Wen
温斌荣,男,助理教授,硕士/博士生导师
2020.11 - 今, 学院,be365体育平台,船舶与海洋工程系,助理教授
2015.9 - 2020.6,学院,机械与动力工程学院,机械工程专业,博士
2011.9 - 2015.6 ,西安交通大学,机械工程学院,机械工程及自动化专业,学士
浮式风机
振动控制
状态监测
智能控制
诚邀有学术理想、愿思考探索、肯勤奋钻研的研究生、本科生加入!
中国振动工程学会会员,中国机械工程学会会员,中国力学学会会员
多份国内外学术期刊审稿人,包括 Applied Energy, Energy Conversion and Management, Energy, Renewable Energy, Mechanical Systems and Signal Processing, Ocean Engineering, Marine Structures, Journal of Wind Engineering and Industrial Aerodynamics 等
纵向项目
[1] 2022 - 2024 国家自然科学基金青年科学基金项目,基于调谐质量阻尼惯容器的浮式风机塔筒振动控制研究,主持
[2] 2021 - 2023 海南省自然科学基金联合项目,基于非线性能量阱的大型海上浮式风机振动控制研究,主持
[3] 2021 - 2023 学院“双一流”建设项目人才科研启动基金,主持
[4] 2022 - 2023 中国船舶集团有限公司第七二六研究所水声对抗技术重点实验室开放基金,XX动力学响应特性研究,主持
[5] 2022 - 2023 国家海上风力发电工程技术研究中心开放基金,基于风洞试验的浮式风电机组多物理场耦合研究,子课题负责人
[6] 2023 - 2025 三亚崖州湾科技城海南专项博士研究生科学研究项目,基于TMDI的海上浮式风机塔架减振降载技术研究,导师负责人(学生主持)
[7] 2017 - 2021 国家自然科学基金重点项目,中近海域大型海上浮式风机耦合动力学与稳定性机理研究,参研
[8] 2021 - 2024 国家自然科学基金联合基金重点项目,大型海洋平台浮托安装系统非线性耦合动力响应预报与海上作业支持,参研
[9] 2022 - 2024 海南省科技计划三亚崖州湾科技城科技创新联合项目,面向实海域多源风场扰动的浮式风机功率-载荷联合优化关键技术研究,参研
横向项目
[9] 2022 - 2023 烟台中集来福士海洋工程有限公司委托项目,主持
[8] 2022 - 2023 中海油渤海石油航务建筑工程有限责任公司委托项目,风机基础理论、风机与基础耦合运动理论研究,主持
[7] 2022 - 2023 中国船舶集团有限公司第七二六研究所委托项目,XX方案设计与验证,主持
[6] 2022 - 2023 中国船舶集团海装风电股份有限公司委托项目,塔架振动特性分析及减振方案设计,主持
[5] 2022 - 2023 中交第三航务工程局有限公司委托项目,XX减摇研究,主持
[4] 2021 - 2022 中国船舶集团海装风电股份有限公司,浮式风电装备性能研究,技术负责人
[3] 2020 - 2021 三峡集团上海勘测设计研究院委托项目,漂浮式海上风电机组系统运动特性物理模型试验,技术负责人
[2] 2020 - 2021 CIMC RAFFLES 委托项目,Wave basin test program for floating wind turbine,技术负责人
[1] 2020 - 2021 大连船舶重工集团有限公司委托项目,漂浮式海上风电平台模型试验,技术负责人
期刊论文
2023年
[32] Zhang H, Wen B*, Tian X, Wang M, Peng Z. Experimental study on mitigating vibration of floating offshore wind turbine using Tuned Mass Damper. Ocean Engineering. Under review
[31] Chen Z, Tian X, Chen X, Wen B*, Li X. An experimental study of the wire-driven compliant robotic fish, Ocean Engineering. Under review
[30] Li Z, Tian X, Wen B*, Peng Z. Dynamic performance evaluation of variable-speed wind turbine transmission system in non-stationary conditions. Journal of Renewable and Sustainable Energy. Under review
[29] Chen X, Tian X, Wen B*, Jiang Z, Dong Y, Peng Z, Wang Y. Development and Performance Evaluation of a Novel Wind Generation System for the Floating Wind Turbine Model Test. Ocean Engineering. 2023, 270: 113384.
2022年
[28] 朱德政,温斌荣,田新亮*,彭志科,董晔弘,叶小嵘. 基于统一变桨和独立变桨的浮式风力机试验研究. 太阳能学报. 2022. (EI)
[27] 梁泽浩,田新亮,温斌荣*,彭志科,李 欣,武广兴. 面向浮式风机混合模型试验的多通道载荷复现器设计与性能测试. 太阳能学报. 2022. (EI)
[26] 王一,周舒旎,温斌荣*,田新亮,彭志科,等. 漂浮式风机运动抑制方法综述. 中国海洋平台. 2022.
[25] 温斌荣, 田新亮, 彭志科*, 李占伟. 大型漂浮式风电装备耦合动力学研究: 历史, 进展与挑战. 力学进展. 2022. 52(3): 1-78. (封面论文)
[24] Wen B, Jiang Z, Li Z, Peng Z, Dong X, Tian X*. On the Aerodynamic Loading Effect of a Model Spar-type Floating Wind Turbine: an Experimental Study. Renewable Energy. 2022;184:306-319.
[23] X Liang, P Wang, X Zhang, B Wen, X Li, X Tian*. Multi-objective robust energy management for environment powered unmanned surface vehicles. Ocean Engineering 247, 110624.
[22] C Yang, Z Cheng*, L Xiao, X Tian, M Liu, B Wen. A gradient-descent-based method for design of performance-scaled rotor for floating wind turbine model testing in wave basins. Renewable Energy. 2022;187:144-155.
2021年
[21] Wen B, Li Z, Jiang Z, Tian X, Dong X*, Peng Z. Floating wind turbine power performance incorporating equivalent turbulence intensity induced by floater oscillations. Wind Energy. 2022; 25 (2), 260-280.
[20] Li Z, Wen B, Dong X, Long X, Peng Z*. Effect of blade pitch control on dynamic characteristics of a floating offshore wind turbine under platform pitching motion. Ocean Engineering. 2021;232:109109.
[19] Jiang Z, Wen B, Chen G, Xiao L, Li X, Peng Z, Tian X*. Feasibility studies of a novel spar-type floating wind turbine for moderate water depths: hydrodynamic perspective with model test. Ocean Engineering. 2021;233:1090707.
2020年
[18] Wen B, Tian X, Jiang Z, Dong X, Peng Z*, Zhang W, Wei K. Monitoring blade loads for model floating wind turbine in wave basin tests using Fiber Bragg Grating sensors: a feasibility study. Marine Structures. 2020;71:102729. (SCI, 交大A档, 中科院一区, TOP期刊)
[17] Wen B, Li Z, Jiang Z, Peng Z, Dong X, Tian X*. Experimental study on the tower loading characteristics of a floating wind turbine based on wave basin model tests. Journal of Wind Engineering and Industrial Aerodynamics. 2020;207:104390. (SCI, 中科院一区, TOP期刊)
[16] Wen B, Tian X, Dong X, Li Z, Peng Z*, Zhang W, Wei K. Design approaches of performance-scaled rotor for wave basin model tests of floating wind turbines. Renewable Energy. 2020;148:573-584. (SCI, 交大B档, 中科院一区, TOP期刊)
[15] Wen B, Li Z, Jiang Z, Tian X, Dong X, Peng Z*. Blade loading performance of a floating wind turbine in wave basin model tests. Ocean Engineering. 2020;199:107061. (SCI, 交大A档, 中科院一区, TOP期刊)
[14] Li Z, Wen B, Wei K, Yang W, Peng Z*, Zhang W. Flexible dynamic modeling and analysis of drive train for Offshore Floating Wind Turbine. Renewable Energy. 2020;145:1292-1305. (SCI, 交大B档, 中科院一区, TOP期刊)
[13] Li Z, Wen B, Dong X, Peng Z*, Qu Y, Zhang W. Aerodynamic and aeroelastic characteristics of flexible wind turbine blades under periodic unsteady inflows. Journal of Wind Engineering and Industrial Aerodynamics. 2020;197:104057. (SCI, 中科院一区, TOP期刊, ESI 高被引论文)
[12] Li Z, Wen B, Peng Z*, Dong X, Qu Y. Dynamic modelling and analysis of wind turbine drivetrain considering the effects of non-torque loads. Applied Mathematical Modelling. 2020;83:146-168. (SCI, 中科院一区, TOP期刊)
[11] Tian X*, Xiao J, Liu H, Wen B, Peng Z. A novel dynamics analysis method for Spar-type floating offshore wind turbine. China Ocean Engineering. 2020;34(1):99–109. (SCI, 交大B档,5)
[10] Cao Q, Xiao L*, Cheng Z, Liu M, Wen B. Operational and extreme responses of a new concept of 10MW semi-submersible wind turbine in intermediate water depth: An experimental study. Ocean Engineering. 2020;217:108003. (SCI, 交大A档, 中科院一区, TOP期刊)
[9] 刘浩学, 温斌荣, 魏汉迪, 汪学锋, 彭志科, 田新亮*. 海上浮式风机混合模型试验系统开发. 实验室研究与探索. 2020;39(5):71-76.
2019年
[8] Wen B, Tian X, Dong X*, Peng Z, Zhang W, Wei K. A numerical study on the angle of attack to the blade of a horizontal-axis offshore floating wind turbine under static and dynamic yawed conditions. Energy. 2019;168:1138-1156. (SCI, 交大A档, 中科院一区, TOP期刊)
[7] Wen B, Tian X, Zhang Q, Dong X*, Peng Z, Zhang W, Wei K. Wind shear effect induced by the platform pitch motion of a Spar-type floating wind turbine. Renewable Energy. 2019;135:1186-1199. (SCI, 交大B档, 中科院一区, TOP期刊)
[6] 王新茹, 陈刚, 肖龙飞, 温斌荣, 田新亮*. 实尺度大型水平轴风机气动特性数值模拟. 中国海洋平台. 2019;34(6):31-39
2018年
[5] Wen B, Dong X, Tian X*, Peng Z, Zhang W, Wei K. The power performance of an offshore floating wind turbine in platform pitching motion. Energy. 2018;154:508-521. (SCI, 交大A档, 中科院一区, TOP期刊)
[4] Wen B, Tian X, Dong X*, Peng Z, Zhang W. On the power coefficient overshoot of an offshore floating wind turbine in surge oscillations. Wind Energy. 2018;21(11):1076-1091. (SCI, 交大B档)
[3] 温斌荣, 魏莎, 魏克湘, 杨文献, 彭志科*, 褚福磊. 风切变和塔影效应对风力机输出功率的影响分析. 机械工程学报. 2018;54(10):124-132. (EI, 封面文章)
2017年
[2] Wen B, Tian X, Dong X*, Peng Z, Zhang W. Influences of surge motion on the power and thrust characteristics of an offshore floating wind turbine. Energy. 2017;141:2054-2068. (SCI, 交大A档, 中科院一区, TOP期刊)
[1] Wen B, Wei S, Wei K, Yang W, Peng Z*, Chu F. Power fluctuation and power loss of wind turbines due to wind shear and tower shadow. Frontiers of Mechanical Engineering. 2017;12(3):1-12. (SCI)
会议论文
[12] 温斌荣, 田新亮, 李占伟, 江志昊, 董兴建, 彭志科. 风浪流联合激励下海上浮式风机塔筒振动特性试验研究. 第18届全国非线性振动暨15届全国非线性动力学和运动稳定性学术会议. 广州,中国,2021.
[11] Wen B, Tian X, Jiang Z, Kou Y, Peng T, Peng Z. Advances in physical model testing of floating offshore wind turbines at Shanghai Jiao Tong University. MARINE Conference, 2021.
[10] Wen B, Jiang Z, Tian X, Peng Z. Unsteady aerodynamics of floating wind turbine: an experimental study. The 24th Annual Conference of HKSTAM 2020, online.
[9] Wen B, Jiang Z, Li Z, Peng Z, Dong X, Tian X. Floating wind turbine dynamics in wind-induced inclination: an experimental study. OMAE2020. Fort Lauderdale, FL, USA. 2020. OMAE2020-18342.
[8] Wen B, Tian X, Jiang Z, Li Z, Zhao Y, Peng T, Peng Z. Developments of experimental facilities and techniques for floating wind turbine model tests. ISOPE 2020. Shanghai, China.
[7] Jiang Z, Wen B, Tian X, Chen G, Xiao L, Peng Z. Feasibility study of deploying a spar-type floating wind turbine in moderate water depths: a hydrodynamics perspective with model tests. OMAE 2020. Fort Lauderdale, FL, USA. 2020. OMAE2020-18451.
[6] 温斌荣, 李占伟, 江志昊, 田新亮, 董兴建, 彭志科. 风浪环境下大型海上浮式风机非线性运动响应试验研究. 2020年全国设备监测诊断与维护学术会议. 福州,中国,2020.
[5] 李占伟, 温斌荣, 何清波, 彭志科. 考虑非扭矩载荷影响的风机传动系统动力学特性分析. 2020年全国设备监测诊断与维护学术会议. 福州, 中国, 2020.
[4] Wen B, Zhang Q, Liu H, Tian X, Dong X, Peng Z, Zhao Y, Kou Y. An experimental apparatus for investigating the unsteady aerodynamics of a floating wind turbine. OMAE 2019. Glasgow, Scotland, UK, 2019. OMAE2019-95915.
[3] Wen B, Tian X, Li Z, Dong X, Peng Z. Unsteady aerodynamics of floating wind turbines under floater oscillations. 21st Cross Straits Symposium on Energy and Environmental Science and Technology. Shanghai, China. 2019.
[2] Li Z, Wen B, Peng Z, Yang W. Flexible dynamic modeling and analysis of drive train for offshore floating wind turbine. The first International Nonlinear Dynamics Conference. Rome, Italy. 2019.
[1] Wen B, Zhang Q, Wei S, Tian X, Dong X, Peng Z. Comparisons between the typical wind shear and the wind shear induced by platform pitch motion for an offshore floating wind turbine. OMAE 2018. Madrid, Spain, 2018. OMAE2018-77797.
数字信号处理与工程应用,研究生课程
公开国家发明专利 30 余项,授权国家发明专利 7 项、实用新型专利 5 项。
个人荣誉
2020年,第11届上银优秀机械博士论文奖(机械领域博士论文最高荣誉)
2020年,学院优秀博士学位论文(全校15名)
2022年,力学进展 52 卷 3 期,封面论文
2018年,机械工程学报 54 卷 10 期,封面论文
国家奖学金,华为奖学金,OMAE Outreach Scholarship等
指导学生获奖
2022年,研究生国家奖学金,指导老师
2022年,第十一届海洋航行器设计与制作大赛,特等奖,指导老师
2022年,第五届全国大学生船舶能源与动力创新大赛,特等奖,指导老师
2022年,第二届海洋可再生能源装置设计赛,一等奖,指导老师
2020年,全国大学生船舶能源与动力创新大赛,一等奖,指导老师