删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

上海交通大学机械与动力工程学院导师教师师资介绍简介-温新

本站小编 Free考研考试/2021-01-01


温新 副教授
所在系所叶轮机械研究所
办公电话
通讯地址上海交大机械与动力工程学院A楼825室
电子邮件wenxin84@sjtu.edu.cn; 本课题组现有2021年硕士研究生名额,欢迎感兴趣的同学联系
个人主页https://www.researchgate.net/profile/Xin_Wen12


教育背景 2011-2015南洋理工大学博士
2008-2011华中科技大学硕士
2004-2008华中科技大学学士

工作经历 2019-今,叶轮机械研究所,副教授,博导、硕导
2016-2019,叶轮机械研究所,特别副研究员,博导、硕导
2015-2016,新加坡-麻省理工联合科研中心,博后

研究方向 本实验室依托教育部重点实验室,主要开展基于机器视觉的先进飞行器流动控制和叶轮机械传热控制相关研究。已经建成了包括无人机测试风洞、流动测量/显示水槽等基础研究设施,具有高频响(10kHz)相机、高能激光和高速数据处理器(多台FPGA NI数据采集卡)为基础的新进数据采集和处理设备。本实验经费充足,受到了多个国家和中央军委项目的支持,并且有多个横向项目在研。本课题组和多个海外知名院校建立了长期的科研合作关系,可以推荐优秀的同学到新加坡南洋理工大学、香港理工大学、美国爱荷华州立大学以及韩国釜山大学等知名高校深造。本课题组已经发表了国际高水平SCI论文20余篇,包括多篇论文被流体力学顶级期刊Physics of Fluids选为主页文章和推荐期刊,以及International Journal of Heat and Mass Transfer和Experimental Thermal and Fluid Science等实验流体和传热顶级期刊上。本课题组主要的研究方向如下:
1. 数据挖掘和机器学习技术:
采用先进的机器学习方法(深度神经网络和压缩感知等)对海量实验数据进行深入挖掘和建模,预测飞行器(无人机等)的飞行状态;
2. 高精度流动控制技术 :
对飞行器(无人机等)/发动机矢量喷管等复杂下产生的流动分离现象进行高精度(PID/模糊控制理论)控制,从而大大提高相应工作部件的效率,开发了相关的嵌入式系统和Labview等程序;
3. 机器视觉测量方法 :
采用图像测量方法(粒子图像测速等),对受控流场进行高精度测量,开发了相关的机器视觉(数据融合/流场重构等)和无镜头相机等先进算法;
4. 流动传热控制技术:
采用新型流动传热控制器(振荡射流和合成射流等),开展叶轮机械换热以及飞行器除冰等相关技术的研究,采用先进的小波融合方法等数据融合方法,开展压敏漆以及温敏漆相关实验,开发高效率换热技术;
5. 计算流体力学 :
采用先进的大涡模拟等高精度计算模型,使用商用软件Fluent和开源软件OpenFOAM对飞行器流动问题进行模拟;
** 招收如下相关专业的博、硕研究生,
动力工程及工程热物理学科的各专业;机械工程;电子与信息等。

科研项目 国家自然科学基金:
2021-2024 国家自然科学基金面上项目,基于高频响Stereo-PIV和快响应压敏漆PSP的翼型振荡射流环量控制实验研究,主持
2018-2020 国家自然科学基金项目(青年), 基于高频响TR-PIV流场测量和快响应PSP压力场测量的振荡射流流动控制技术的实验研究, 主持
中央军委国防项目
2020-2024 中央军委科技委先进航空动力创新工作站项目,基于xxxx发动机流动控制技术研究,主持
2020-2021 中央军委科技委国防科技创新特区项目,基于xxxx隐身飞行器技术研究,主持
2019-2020 中央军委装备发展部装备预研项目, 新一代旋翼非定常气动与结构耦合特性研究, 主持
2019-2020 中央军委装备预研中国航发联合基金航空动力基金,xxx,主持
2018-2020 中央军委装备发展部装备预研项目, 基于机器学习和振荡射流的流动控制技术, 主持
省级与重点实验室项目:
2019-2023 上海市科学技术委员会“科技创新行动计划”基础研究重点项目,基于多源数据融合的流固耦合高效精细求解研究,主持
2019-2020 气动噪声控制重点实验室, 基于新型振荡射流和智能反馈控制的噪声抑制方法研究, 主持
校级项目:
2020-2022 上海交通大学“深蓝计划”基金, 基于仿生海豹胡须和机器学习技术的新型尾迹探测传感器研究,主持
2019-2021 上海交通大学“双一流”研究生优质课程建设,《Data Mining》研究生英语教学课程,主持
2017-2019 上海交通大学“985工程新一轮学科建设”项目, 主持

代表性论文专著 Peer reviewed journals
2020
25)Ziyan Li, Kaiwen Zhou, Yingzheng Liu, Xin Wen*“Jet Sweeping Angle Control by Fluidic Oscillators with Master-Slave Designs”Chinese Journal of Aeronautics, Accepted, 2020. 06. (SCI, JCR 1区,航空航天权威期刊,学生一作)
24) Xin Wen, Ziyan Li, Luanliang Zhou, Chengji Yu, ZUBAIR MUHAMMAD, Yudan Liu, Shiqi Wang, and Yingzheng Liu“Flow Dynamics of a Fluidic Oscillator with Internal Geometry Variations”Physics of Fluids, Accepted, 2020. 06. (SCI, JCR 1区,流体顶刊)
23) Xin Wen, Jiajun Liu, Ziyan Li, Di Peng, Wenwu Zhou, Kyung Chun Kim, and Yingzheng Liu*, "Jet Impingement Using an Adjustable Spreading-Angle Sweeping Jet", Aerospace Science and Technology, Accepted, 2020.04. (SCI, JCR 1区,航空航天领域顶级期刊)
2019
22) Xin Wen, Jiajun Liu, Donguk Kim, Ying Zheng LIU, Kyung Chun Kim*, "Study on Three-dimensional Flow Structures of a Sweeping Jet". Experimental Thermal and Fluid Science, Accepted, 2019.10, DOI: 10.1016/j.expthermflusci.2019.109945. (SCI, JCR 1区,流体传热顶刊)
21) Ziyan Li, Jiajun Liu, Wenwu Zhou, Yingzheng Liu,Xin Wen*, "Experimental Investigation on Flow Fields of Sweeping Jet Impingement upon Confined Concave Surfaces". International Journal of Heat and Mass Transfer, submitted, 2019.04,Accepted, 2019.07.19. (SCI, JCR 1区,流体传热顶刊,学生一作)
20) Xin Wen, Jiajun Liu, Ziyan Li, Wenwu Zhou, Yingzheng Liu*, "Flow Dynamics of Sweeping Jet Impingement upon a Large Convex Cylinder". Experimental Thermal and Fluid Science, submitted, 2019.01,revised,2019.03, Accepted, 2019. 05. (SCI, JCR 1区,流体传热顶刊)
19) Lingrui Jiao, Yujia Chen, Xin Wen, Di Peng*, Yingzheng Liu, James W. Gregory, Interaction between rotor wake and a circular cylinder: Measurement of vortex-induced pressure fluctuation using microphone and fast PSP, Physics of Fluids, Accepted, 2019. 04. (SCI, JCR 2区,流体顶刊)
18) Xin Wen, Ziyan Li, Jiajun Liu, Wenwu Zhou, Yingzheng Liu*, "Machine learning approach to construct global phase-averaged flow field based on local flow features". Flow Measurement and Instrument, submitted, 2018.10, Accepted, 2019.04. (SCI,流动测量权威期刊)
17) Xin Wen, Ziyan Li, Di Peng, Wenwu Zhou, Yingzheng Liu*, "Missing Data Recovery Using Data Fusion of Incomplete Complementary Data Sets: a Particle Image Velocimetry Application". Physics of Fluids, Accepted, 2019. (SCI, JCR 2区,Editor's Pick, 流体顶刊)
16) Wenwu Zhou, Lin Yuan, Yingzheng Liu, Di Peng, and Xin Wen*, "Heat transfer of a sweeping jet impinging at narrow spacings". Experimental Thermal and Fluid Science, January 2019. (SCI, JCR 1区,流体传热顶刊)
2018
15) Wenwu Zhou, Han Chen, Yingzheng Liu, Xin Wen, and Di Peng*,“Unsteady analysis of adiabatic film cooling effectiveness for discrete hole with oscillating mainstream flow". Physics of Fluids 30, 127103 (2018); (SCI, JCR 2区,Featured article, 主页文章,流体顶刊)
14) Xin Wen, Ziyan Li, Wenwu Zhou, Yingzheng Liu*, Interaction of Dual Sweeping Impinging Jets at Different Reynolds Numbers, Physics of Fluids, submitted, 2018.08, accepted, 2018.10 (SCI, JCR 2区,Featured Article,主页文章,流体顶刊)
13) Xin WEN, Yingzheng LIU, Ziyan LI, Yujia Chen, Di PENG*, Data mining of clean signal from highly noisy data based on compressed data fusion: a fast PSP application, Physics of Fluids, submitted, 2018.06, accepted, 2018.09 (SCI, JCR 2区,流体顶刊)
12) Zhiwen Deng, Chuangxin He, Xin Wen, Yingzheng Liu*, Recovering turbulent flow field from local quantity measurement: Turbulence modeling using ensemble-Kalman-filter-based data assimilation, Journal of Visualization, submitted, 2018.06.20,accepted, 2018.07 (SCI)
11)Wenwu Zhou, Mohamed Qenawy, Di Peng*, Xin Wen, Yingzheng Liu, Influence of mainstream flow oscillations on spatio-temporal variation of adiabatic film cooling effectiveness, International Journal of Heat and Mass Transfer, 2018. DOI: 10.1016/j.ijheatmasstransfer.2018.09.131. (SCI, JCR 1区,流体传热顶刊)
10) Xin Wen*, Hui Tang, and Yingzheng Liu, Interaction of Twin Synthetic Jets in Attached and Separated Boundary Layers - Effects of Yaw Angle and Phase Difference, Journal of Visualization, submitted, 2018.04.26, accepted, 2018.05.29. (SCI)
9 ) Wenwu Zhou, Di Peng, Xin Wen, Yingzheng Liu*, Hui Hu, Unsteady analysis of adiabatic film cooling effectiveness behind circular, shaped, and sand-dune–inspired film cooling holes: Measurement using fast-response pressure-sensitive paint, International Journal of Heat and Mass Transfer, submitted, 2017.12.06,accepted, 2018.04.24. (SCI, JCR 1区,流体传热顶刊)
8 ) Xin WEN, Liu, Y*, Lagrangian Analysis of Sweeping Jets Measured by Time-Resolved Particle Image Velocimetry, Experimental Thermal and Fluid Science, submitted, 2018.03.26, revised, 2018.04.15, accepted, 2018.04.16. (SCI, JCR 1区,流体传热顶刊)
7)Xin WEN, Liu, Y*, Tang, H., Unsteady Behavior of Sweeping Impinging Jet: Time-resolved PIV Measurements, Experimental thermal and fluid science, submitted, 2017.09.26, revised, 2017.12.26, accepted, 2018.02.26. (SCI, JCR 1区,流体传热顶刊)
2017
6)Xin WEN, Liu, Y*., and Tang, H., 2017, Near-field Interaction of an Inclined Jet with a Crossflow: LIF Visualization and TR-PIV Measurement, Journal of Visualization, DOI: 10.1007/s12650-017-0437-3 (SCI)
5)Xin WEN and Tang, H., 2017, Dye Visualization of In-line Twin Synthetic Jets in Crossflows - A Parametric Study, Journal of Fluids Engineering, Vol. 139, No. 9, 091203, DOI:10.1115/1.**. (SCI, JCR 2区,流体工程权威期刊)
2016 and previous
4)Xin WEN, Tang, H., & Duan, F. Interaction of in-line twin synthetic jets with a separated flow, Physics of Fluids, 2016, DOI: 10.1063/1.**. (SCI, JCR 2区,流体顶刊)
3)Xin WEN, & Tang, H. Effect of phase difference on the interaction of hairpin vortices induced by in-line twin synthetic jets. Journal of Visualization. 2016, DOI: 10.1007/s12650-015-0291-0. (SCI)
2)Xin WEN, Tang, H., & Duan, F. Vortex dynamics of in-line twin synthetic jets in a laminar boundary layer, Physics of Fluids, 2015, DOI: 10.1063/1.**. (SCI, JCR 2区,流体顶刊)
1)Xin WEN & Tang, H. On hairpin vortices induced by circular synthetic jets in laminar and turbulent boundary layers. Computers & Fluids, 2014. DOI: 10.1016/j.compfluid.2014.02.002. (SCI, JCR 2区,计算流体顶刊)
Conference presentation
Xin Wen, Yingzheng Liu, Wenwu Zhou, Di Peng, Data recovery of clean signal from highly noisy data: a compressed data fusion approach, 71st Annual Meeting of the APS Division of Fluid Dynamics November 18 - 20, Atlanta, GA, USA, 2018
Wen, X.. and Tang, H., Influence of In-line Twin Synthetic Jets on a Separated Laminar Boundary Layer, 10th National Conference of Experimental Fluid Mechanics, Shanghai, China, May 2016.
Wen, X., Wang, P.C. & Yu, S.C.M, Numerical Study of Performance of Reverse Flow Combustor, IEEE Aerospace Conference, Montana, U.S.A., 2016.
Wen, X., Teo, K., & Tang, H. Experimental study of in-line twin synthetic jets in a laminar boundary layer. 16th International Symposium on Flow Visualization, Okinawa, Japan, 2014.
Wen, X. & Tang, H. Interaction of synthetic jets with laminar and turbulent boundary layers. 18th Australasian Fluid Mechanics Conference, Launceston, Australia, 2012.

教学工作 1. Data mining (数据挖掘) 研究生 48学时 3学分 英文授课
2. 工程学导论 本科生(大一) 48学时 3学分
3. 本科PRP项目,5人,《基于机器学习的无人机环境感知技术》

学术兼职 Chinese Journal of Aeronautics 审稿人
IEEE Access 审稿人
Experimental Thermal and Fluid Science 审稿人
AIAA 审稿人
Scientific Reports 审稿人

荣誉奖励 2011-2015,南洋理工大学,全额奖学金
2008,华中科技大学,优秀毕业生
2007,华中科技大学,科技创新标兵
2007,FIRA足球机器人国内选拔赛,冠军

已上传文件 1. 基于数据融合技术的PIV流场缺失数据补偿算法(Physics of Fluids-2019)

2. 基于压缩感知和数据融合技术的PSP压敏漆降噪算法 (Physics of Fluids-2018)

3. 基于机器学习技术的流场重构方法(Flow Measurement and Instrumentation-2019)

4. 基于新型双振荡射流的射流冲击平均化研究(Physics of Fluids-2018)

5. 基于拉格朗日动态模式分解分析的振荡射流研究(Experimental Thermal and Fluid Science-2018)


相关话题/机械 上海交通大学