个人简介
工作经历
时间 任职单位 职务
2023年-至今 上海交通大学 长聘副教授
2017年-2022年上海交通大学 长聘教轨副教授
2014-2017年英国剑桥大学博士后
教育背景
时间 毕业院校 学历
2009年-2013年 德国埃尔朗根-纽伦堡大学 博士
2007年-2009年德国埃尔朗根-纽伦堡大学 硕士
2004年-2007年 山东大学 硕士
2000年-2004年山东大学 本科
主要科研项目
(1)国家海外高层次人才计划(青年项目),2017
(2)国家自然科学基金联合基金项目(重点项目),“复杂旋流喷雾火焰的碳烟颗粒物生成机理研究”,2022-2025,主持
(3)国家自然科学基金面上项目,“基于kHz激光精细成像技术的硼/乙醇纳米流体燃料喷雾燃烧特性研究”,2021-2024,主持
(4)国家自然科学基金青年项目,“基于超高重复频率激光的湍流射流火焰中碳烟、温度和流场速度的二维同步测量”,2018-2020,主持
(5)工信部“两机专项”基础研究专题项目,2022-2024,子项目负责人
(6)工信部“两机专项”基础研究专题项目,2018-2022,子项目负责人
(7)工信部“两机专项”基础研究专题项目,2018-2022,参研
会议:
(1)王晓阳,刘昆鹏,傅宸,王梦,高怡*。基于光学测量的V型二维钝体稳定预混火焰熄火动力学试验研究,2022中国工程热物理学会燃烧学学术年会,上海,2022年10月14-16日
(2)傅宸,王梦,江毅峰,刘昆鹏,王晓阳,高怡*。基于高速PIV和OH*化学发光的声激励旋流钝体火焰贫燃熄火试验研究,2022中国工程热物理学会燃烧学学术年会,上海,2022年10月14-16日
(3)王晓阳,刘昆鹏,傅宸,夏溪,高怡*,齐飞。基于10 kHz PIV/OH*自发光测量的V型钝体火焰稳定机制研究,2021中国工程热物理学会燃烧学学术年会,大连,2022年1月14-16日
(4)吴昀辉,傅宸,王晓阳,刘昆鹏,夏溪,高怡*,齐飞。基于高速PIV/OH*化学发光成像的声激励旋流预混火焰非线性响应研究,2021中国工程热物理学会燃烧学学术年会,大连,2022年1月14-16日
(5)张昊东,夏溪*,高怡*。射流扩散火焰的不稳定性模态和频率特性,2020中国工程热物理学会燃烧学学术年会,厦门,2020年11月12-15日
(6)张漫*,徐亮亮,李磊,高怡,孟晟,齐飞。模型环形燃烧室自激燃烧不稳定的实验与大涡模拟研究,2020燃气涡轮发动机仿真技术发展论坛,沈阳,2020年10月15-16日
(7)夏溪*,高怡*,杨晓媛,傅宸,齐飞。Vortex formation of buoyant DME/N2 diffusion flames under periodic acoustic excitations,2019中国工程热物理学会燃烧学学术年会,天津,2019年10月23-27日(英文)
(8)李世琰,杨晓媛,傅宸,李天宇,高怡*。预膜式气动雾化喷嘴近场喷雾初次破碎特性的实验研究,2018中国工程热物理学会燃烧学学术年会,哈尔滨,2018年9月13-16日
(9)S.Y. Li*, T.Y. Li, X.C. Liu*, Y. Gao*。An experimental investigation on the effect of split injection on spray-vortex interaction of pressure-swirl injector using high-speed PIV, 14th Triennial International Conference on Liquid Atomization and Spray Systems (ICLASS 2018), Chicago, USA, 22-26 July 2018(英文)
(10)T.Y. Li, S.Y. Li, X.C. Liu, Y.Y. Li, F. Qi, Y. Gao*. Effect of liquid temperature on spray characteristics of a gas-centered swirl coaxial injector under various ambient pressures, 14th Triennial International Conference on Liquid Atomization and Spray Systems (ICLASS 2018), Chicago, USA, 22-26 July 2018 (英文)
(11)Y. Gao*, C. Fu, X.Y. Yang, F. Qi. The application of diagnostic techniques utilizing ultrahigh repetition rate laser in typical industrial reacting flows, Laser Applications to Chemical, Security and Environmental Analysis (LACSEA 2018), Orlando, USA, 25–28 June 2018(英文)
(12)齐飞,周忠岳,李玉阳,苑文浩,高怡。基于质谱和光谱诊断的燃烧研究新进展,中国化学会第二届全国燃烧化学学术会议,大连,2017年5月19-21日
荣誉奖励
(1)个人荣誉
2021 上海交通大学第六届青年教师教学竞赛二等奖
2019 上海交通大学优秀共产党员
2018 上海交通大学优秀班主任
2017 国家海外高层次人才引进计划(青年项目)
2010 Distinguished Paper of 33rd International Symposium on Combustion
2009 Gordon Research Conference Carl Storm International Diversity Fellowship
(2)学生培养
2022 指导的研究生(吴昀辉、张昊东)获上海交通大学优秀毕业生
2021 指导本科生毕业设计获得校企合作毕设项目展“优秀设计”三等奖&“最佳展示奖”&“最具人气奖”
2020 指导本科生获“中铁工业杯”第九届全国大学生机械创新设计大赛二等奖
2020 指导本科生获第九届上海市大学生机械工程创新大赛一等奖
2020 指导本科生毕业设计获得校企合作毕设项目展“最佳展示奖”&“最受欢迎奖”&“优秀指导教师奖”
2019 指导本科生毕业设计获得第三届校企合作毕设项目展“优秀设计”二等奖
近期论文
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(1)X.Y. Wang, K.P. Liu, C. Fu, M. Wang, J. Yu, Y. Gao*. “Investigation of the influence of the bluff-body temperature on a lean premixed DME/air flame utilizing simultaneous measurements of PIV and OH-PLIF”, Experimental Thermal and Fluid Science, submitted (2022)
(2)S. Meng, M. Zhang*, Y. Gao*. “Influence of the acoustic liner in Large Eddy Simulation of longitudinal thermoacoustic instability in a model annular combustor”, AIAA Journal, submitted (2022)
(3)X.Y. Wang, K.P. Liu, C. Fu, J. Yu, Y. Gao*. “Investigation of the applicability of CPIV in a 2D bluff-body stabilized premixed flame with simultaneous measurement of OH-PLIF”, Experimental Thermal and Fluid Science, under review (2022)
(4)吴昀辉, 傅宸, 高怡*, 王晓阳, 夏溪. 声激励下旋流钝体火焰的非线性响应实验研究, 航空动力学报, 37:1872‑1885 (2022)
(5)S. Meng, S.Z. Wu, M. Zhang*, L.L. Xu, Y. Gao. “Numerical prediction and suppression of thermoacoustic longitudinal mode in annular combustor”, AIAA Journal, J061317 (2022)
(6)J.Y. Zheng, S.R. Wang, Z.F. Yang, L. Li, G.Q. Wang, Y. Gao, X.C. Liu, F. Qi. “Experimental investigations on coherent flow structures in acoustically excited swirling flames using temporally-separated dual-plane stereo-PIV”, Experimental Thermal and Fluid Science, 136:110673 (2022)
(7)D.H. Ju*, L. Huang, K.P. Zhang, M. Ye, Z. Huang, Y. Gao. “Comparison of evaporation rate constants of a single fuel droplet entering subcritical and supercritical environments”, Journal of Molecular Liquids, 347: 118346 (2022)
(8)S.R. Wang, J.Y. Zheng, L. Li, Z.F. Yang, X. Xia, C. Fu, Y. Gao, X.C. Liu, X. Han*, C. Zhang, F. Qi. “Evolution characteristics of 3D vortex structures in stratified swirling flames studied by dual-plane stereoscopic PIV”, Combustion and Flame, 237: 111874 (2022)
(9)Z.Q. Li, C. Fu, Y. Gao*, X. Xia, W.H. Yuan, D.H. Ju, F. Qi. “Investigation on spray and combustion characteristics of boron/ethanol nanofuel utilizing 50 kHz repetition rate high-speed laser measurements”, Fuel, 287: 119562 (2021)
(10)H.D. Zhang, X. Xia*, Y. Gao*. “Instability transition of a jet diffusion flame in quiescent environment”, Proceedings of the Combustion Institute, 38(3): 4971-4978 (2021)
(11)X. Xia, C. Fu, Y.F. Yang, X.Y. Yang, Y. Gao*, F. Qi*. “Vortex formation and frequency tuning of periodically-excited jet diffusion flames”, Proceedings of the Combustion Institute, 38(2): 2067-2074 (2021)
(12)V. Dulina*, D. Sharaborin, R. Tolstoguzov, A. Lobasov, L. Chikishev, D. Markovich, S.R. Wang, C. Fu, X.C. Liu, Y.Y Li, Y. Gao. “Assessment of single-shot temperature measurements by thermally-assisted OH PLIF using excitation in the A2Σ+–X2Π (1-0) band”, Proceedings of the Combustion Institute, 38(1): 1877-1883 (2021)
(13)Z.F. Yang*, S.R. Wang, J.Y. Zheng, L. Li, X.C. Liu, Y. Gao, F. Qi. “20 kHz dual-plane stereo-PIV measurements on a swirling flame using a two-legged burst-mode laser”, Optics Letters, 45(20): 5756-5759 (2020)
(14)Q. Wang, H.C. Liu, X.C. Liu*, S.R. Wang, C. Fu, G.Q. Wang, Y. Gao, W.W. Cai, F. Qi. “Three-dimensional concentration field imaging in a swirling flame via endoscopic volumetric laser-induced fluorescence at 10-kHz-rate”, Science China Technological Sciences, 63: 2163–2168 (2020)
(15)Y. Gao*, X.Y. Yang, C. Fu, Z.Q. Li, H.D. Zhang, Y.F. Yang, F. Qi. “10 kHz simultaneous PIV/PLIF study of the diffusion flame response to periodic acoustic forcing”, Applied Optics, 58(10): C112-120 (2019)
(16)X.Y. Yang, C. Fu, G.Q. Wang, Z.Q. Li, T.Y. Li, Y. Gao*, F. Qi. “Simultaneous high-speed SO2 PLIF imaging and stereo-PIV measurements in premixed swirling flame at 20 kHz”, Applied Optics, 58(10): C121-129 (2019)
(17)C. Fu, X.Y. Yang, Z.Q. Li, H.D. Zhang, Y.F. Yang, Y. Gao*, F. Qi. “Experimental investigation on an acoustically forced flame with simultaneous high-speed LII and stereo PIV at 20 kHz”, Applied Optics, 58(10): C104-111 (2019)
(18)A. Hayakawa*, T. Yamagami, K. Takeuchi, Y. Higuchi, T. Kudo, S. M. Lowe, Y. Gao, S. Hochgreb, H. Kobayashi. “Quantitative measurement of temperature in oxygen enriched CH4/O2/N2 premixed flames using Laser Induced Thermal Grating Spectroscopy (LITGS) up to 1.0 MPa”, Proceedings of the Combustion Institute, 37(2): 1427-1434 (2019)
(19)S.Y. Li, X.Y. Yang, C. Fu, T.Y. Li, Y. Gao*. “Experimental investigation on near-field breakup characteristics of hybrid-mixed twin-fluid atomizer”, Atomization and Sprays, 28(10): 901–914 (2018)
(20)B. Tian*, Y. Gao, C. Zhang, S. Hochgreb. “Soot measurement in diluted methane diffusion flames by multi-pass extinction and laser-induced incandescence”, Combustion and Flame, 192: 224-237 (2018)
(21)B. Tian*, C. Zhang, Y. Gao, S. Hochgreb. “Planar 2-colour time-resolved laser-induced incandescence measurements of soot in a diffusion flame”, Aerosol Science and Technology, 51: 1345 (2017)
(22)L. Fan*, Y. Gao, A. Hayakawa, S. Hochgreb. “Simultaneous, two‑camera, 2D gas‑phase temperature and velocity measurements by thermographic particle image velocimetry with ZnO tracers”, Experiments in Fluids, 58: 34 (2017)
(23)A. Hayakawa, Y. Gao, S. Lowe, S. Hochgreb. “Quantitative temperature measurement of toluene/air mixture using laser-induced thermal grating spectroscopy”, Proceedings of Mechnical Engineering Conference Japan, G0600101 (2016)
(24)Y. Gao, T. Seeger*, A. Leipertz. “Development of temperature evaluation of pure Rotational Coherent Anti-Stokes Raman Scattering (RCARS) spectra influenced by spatial averaging effects”, Proceedings of the Combustion Institute, 35: 3715-3722 (2015)
(25)B. Tian, Y. Gao, S. Balusamy, S. Hochgreb. “High spatial resolution laser cavity extinction and laser induced incandescence in low soot producing flames”, Applied Physics B, 120: 469-487 (2015)
(26)S. Balusamy, M.M. Kamal, S.M. Lowe, B. Tian, Y. Gao, S. Hochgreb. “Laser diagnostics of pulverized coal combustion in O2/N2 and O2/CO2 conditions: velocity and scalar field measurements”, Experiments in Fluids, 56: 108 (2015)
(27)B.D. Patterson, Y. Gao, T. Seeger, C.J. Kliewer. “Split-probe hybrid femtosecond/picosecond rotational CARS for time-domain measurement of S-branch Raman linewidths within a single laser shot”, Optics Letters, 38: 4566 (2013)
(28)D. Kilian, S. Engel, B. Borsdorf, Y. Gao, A.F. Kögler, S. Kobler, T. Seeger, S. Will, A. Leipertz, W. Peukert. “Spatially resolved flame zone classification of a flame spray nanoparticle synthesis process by combining different optical techniques”, Journal of Aerosol Science, 69: 82 (2014)
(29)Y. Gao, A. Bohlin, T. Seeger, P.E. Bengtsson, C.J. Kliewer*. “In situ determination of N2 broadening coefficients in flames for rotational CARS thermometry”, Proceedings of the Combustion Institute, 34: 3637-3644 (2013)
(30)S.R. Engel, A.F. Kögler, Y. Gao, D. Kilian, M. Voigt, T. Seeger, W. Peukert, A. Leipertz. “Gas phase temperature measurements in the liquid and particle regime of a flame spray pyrolysis process using O2-based pure rotational coherent anti-Stokes Raman scattering”, Applied Optics, 51: 6063 (2012)
(31)C.J. Kliewer, Y. Gao, T. Seeger, J. Kiefer, B.D. Patterson, T.B. Settersten. “Picosecond time-resolved pure-rotational coherent anti-Stokes Raman spectroscopy in sooting flames”, Proceedings of the Combustion Institute, 33: 831-838 (2011)
(32)A. Birkigt, K. Michels, J. Theobald, T. Seeger, Y. Gao, M.C. Weikl, M. Wensing, A. Leipertz. “Investigation of compression temperature in highly charged spark-ignition engines”, International Journal of Engine Research, 12: 282 (2011)
(33)C.J. Kliewer, Y. Gao, T. Seeger, B.D. Patterson, R.L. Farrow, T.B. Settersten. “Quantitative one-dimensional imaging using picosecond dual-broadband pure-rotational CARS”, Applied Optics, 50: 1770 (2011)
(34)S.C. Eichmann, Y. Gao, M.C. Weikl, F. Beyrau, T. Seeger, A. Leipertz. “Multi-species detection with dual-pump-CARS: possibilities and limitations”, Physics Procedia, 5: 703 (2010)
(35)T. Seeger, J. Kiefer, Y. Gao, B.D. Patterson, C.J. Kliewer, T.B. Settersten. “Suppression of Raman-resonant interferences in rotational coherent anti-Stokes Raman spectroscopy using time-delayed picosecond probe pulses”, Optics Letters, 35: 2040 (2010)
(36)Y. Gao, M.C. Weikl, T. Seeger, A. Leipertz, P. Joubert, J. Bonamy. “Evaluation of temperature and concentration in H2-N2 dual-pump CARS spectra using the Keilson and Storer three-dimensional model for H2 Q-branch”, Journal of Raman Spectroscopy, 40(7):781-787 (2009)