姓名: |
马兴宇 |
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性别: |
男 |
英文名: |
Ma Xingyu |
人才称号: |
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职称: |
副教授,博士生导师 |
职务: |
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专业: |
实验流体力学 |
所在机构: |
机械工程学院力学系 |
个人主页: |
https://www.linkedin.com /in/xingyu-ma-48132a9b/ |
邮箱: |
xingyuma@tju.edu.cn |
办公地点: |
天津大学北洋园校区36-404 |
传真: |
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办公电话: |
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主要学历: |
2012.1–2015.8,德国哥廷根大学,物理系,博士 (Dr. rer. nat.)
2009.9–2011.6,南京航空航天大学,航空宇航学院,工学硕士
2005.9–2009.6,南京航空航天大学,航空宇航学院,工学学士
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主要学术经历: |
2018.6-今,天津大学,机械工程学院,副教授
2015.11-2018.6,奥地利科学技术研究院 (Institute of Science and Technology Austia),博士后
2011.10-2015.9,德国航空航天中心 (German Aerospace Center),博士研究生
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主要研究方向: |
实验流体力学
流动分离控制
流动测量技术
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主要讲授课程: |
1. 本科课程《实验流体力学》《诗情画意谈力学》《谈风说雨话力学》
2. 研究生课程《流体力学基础》、全英文课程《Fundamentals of Fluid Mechanics》
3. 留学生全英文课程《工程中的测试理论与方法》
4. 智慧树平台网络课程《诗情画意谈力学》
5. 学堂在线平台网络课程《工程中的流动测试理论与方法》
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主要学术兼职: |
教育部学位与研究生教育发展中心全国研究生教育评估监测专家库专家;
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主要学术成就: |
第二届中国空气动力学大会“青年优秀论文奖”,2023;
《实验流体力学》期刊 “优秀论文奖”,2022;
第十二届全国实验流体力学会议“优秀报告奖”2021;
第十二届全国流动显示会议 “优秀论文奖”,2021;
德意志学术交流中心DAAD访问学者,2011-2015;
流体力学期刊《Journal of Fluid Mechanics》、《Physics of Fluids》、《Journal of Power and Energy》、《空气动力学学报》、《北京航空航天大学学报》等期刊审稿专家;
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主要科研项目: |
—国家自然科学基金面上项目“基于仿生型覆羽的机翼失速主动控制的实验研究”,主持
—国家自然科学基金青年项目“非定常分离流动中拉格朗日湍流结构及其演化的实验研究”,主持
—翼型叶栅空气动力学国家重点实验室稳定支持项目“基于机器强化学习的仿生型流动分离控制技术的实验研究”,主持
—牵引动力国家重点实验室专项课题“高速列车局部分离流动冲击受电弓的减振降噪实验研究”,主持
—航空工业气动院科技创新重点实验室“新风向”联合创新项目《基于神经网络的机翼失速自适应控制与流场重构》,主持
—气动噪声控制重点实验室专项课题“基于神经网络的仿生学覆羽流动分离和噪声控制研究”,主持
—气动噪声控制重点实验室专项课题“仿生学柔性旋涡发生器对机翼前缘分离和噪声控制的实验研究”,主持
—天津大学研究生全英文课程建设《Fundamentals of Fluid Mechanics》,主持
—天津大学第三批课程思政示范课程建设《诗情画意谈力学》,主持
—天津大学第四批课程思政示范课程建设《谈风说雨话力学》,主持
—天津大学新工科教育教学改革项目大机械类新工科通识课程建设子课题,主持
—中德科学中心“天津大学-德国航空航天中心合作研究小组:超疏水壁面减阻流动的高精度流场诊断”,参与
—国家自然科学基金面上项目“壁湍流拉格朗日大尺度相干结构时空发展演化的移动Tomo-TRPIV跟踪测量研究”,参与
—欧盟第七框架计划研究项目“Manipulation of Reynolds Stress for Separation Control and Drag Reduction”,参与
欧盟第七框架计划研究项目“Decoding the complexity of turbulence at its origin”,参与
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代表性论著: |
[1]Ma X., Gong X., Tang Z., Jiang N., Control of leading-edge separation on bioinspired airfoil with fluttering coverts. Phys. Rev. E, 2022, 105: 025107.
[2]Ma X., Tang Z., Jiang N., Investigation of spanwise coherent structures in turbulent backward-facing step flow by time-resolved PIV. Exp. Therm. Fluid Sci., 2022, 132: 110569.
[3]Ma X., Gong X., Jiang N., Experimental study of vortex formation in pulsating jet flow by time-resolved particle image velocimetry. Phys. Fluids, 2022, 34: 035105.
[4]Ma X., Tang Z., Jiang N., Lagrangian visualization of vortex evolution in the wake of a backward-facing step. J. Vis., 2022, 25: 915-921.
[5]Ma X., Tang Z., et al., Experimental study of self-sustained spanwise streaks and turbulent mixing in separated shear flow. Int. J. Heat Fluid Fl., 2022, 96: 109012.
[6]Gong X. Ma X., Jiang N., Wavelet analysis of the coherent structures in airfoil leading-edge separation control by bionic coverts. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2023, 237(9): 2076-2089.
[7]巩绪安,张鑫,马兴宇等,柔性锯齿形尾缘流动分离控制实验的多尺度相干结构研究. 实验流体力学, 2022, 36(6): 19-27. (《实验流体力学》2022年度优秀论文)
[8]巩绪安,张鑫,马兴宇等,仿生学覆羽控制翼型流动分离的实验研究. 空气动力学学报, 2021, 39(6): 184-195.
[9]Ma X., Tang Z., Jiang N., Eulerian and Lagrangian analysis of coherent structures in separated shear flow by time-resolved particle image velocimetry, Phys. Fluids, 32, 065101, 2020
[10]Ma X., Tang Z., Jiang N., Visualization of Lagrangian fluid transport of a vortex ring based on time-resolved PIV, J. Vis., 23:559–564, 2020
[11]Xu D., Varshney A., Ma X., Song B., Riedl M., Avila M., Hof B., Nonlinear hydrodynamic instability and turbulence in pulsatile flow, Proceedings of the National Academy of Sciences 117(21):201913716, 2020
[12]Ming X., Ma X., Geisler R., Li P., Effective Synthetic Jet Control for Separation Control on BFS, in the book of ”Advances in Effective Flow Separation Control for Aircraft Drag Reduction”, 2019, Springer Publishing. (专著)
[13]Ma X., Schröder A., Reduced-order coherent structures in active flow separation control using a bio-inspired flapping actuator. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 232(14):2536-2545, 2018
[14]Ma X., Schröder A., Visualization of separated shear layer streaks generated by micro vortex generators based on tomographic PIV. J. Vis., 21:185-190, 2018
[15]Ma X., Schröder A., Analysis of flapping motion of reattaching shear layer behind a two-dimensional backward-facing step. Phys. Fluids. 29:115104, 2017
[16]Ma X., Geisler R., Schröder A., Experimental investigation of subharmonic perturbations in separated shear flow over a backward-facing step. Flow Turbul. Combust., 99:71-91, 2017
[17]Ma X., Geisler R., Schröder A., Experimental investigation of three-dimensional vortex structures downstream of vortex generators over a backward-facing step. Flow Turbul. Combust., 98:389-415, 2017
[18]Xu D., Warnecke S., Song B., Ma X., Hof B., Transition to turbulence in pulsating pipe flow. J. Fluid Mech., 831:418-432, 2017
[19]Ma X., Schröder A., Comparison of signal-based and POD-based phase-averaged Reynolds stress in a perturbed separated shear flow. J. Vis., 20:509-514, 2017
[20]Ma X., Geisler R., Agocs J., Schröder A., Investigation of coherent structures generated by acoustic tube in turbulent flow separation control. Exp. Fluids, 56:46, 2015
[21]马兴宇,明晓 (2012) 七孔探针测量剪切流场的误差分析和实验验证,空气动力学学报. 30(1):57-62
[22]马兴宇,明晓 (2011) 风力机叶尖涡特性及其控制,南京航空航天大学学报. 43(5):635-639
[23]Bai Y., Ma X., Ming X. (2011) Lift enhancement of the airfoil and tip flow control for wind turbine. Applied Mathematics and Mechanics-Eng. Ed. 32(7):774-784
[24]Ma X., Geisler R., Schröder A. (2015) Active control of separated shear flow downstream of a backward-facing step by using small perturbations. Measurement and Optical Techniques for Aerospace Research, Cologne, Germany.
[25]Ma X., Geisler R., Agocs J., Schröder A. (2014) Time-resolved tomographic PIV investigation of turbulent flow control by vortex generators on a backward-facing step. 17th Int. Symp. Applications of Laser Technology to Fluid Mechanics, Lisbon, Portugal
[26]Ma X., Geisler R., Agocs J., Schröder A. (2014) Investigation of coherent structures in active flow control over a backward-facing step by PIV. 16th Int. Symp. on Flow Visualization, Okinawa, Japan
Ma X., Schröder A., Geisler R., Agocs J. (2013) Active control of turbulent flow separation over a backwardfacing step using acoustic tube. 16. STAB-Workshop, Göttingen, Germany
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