2008-2012，英國謝菲爾德大學(xué)，機(jī)械工程專業(yè)，博士
2004-2007，西安交通大學(xué)，動(dòng)力機(jī)械及工程專業(yè)，碩士
2000-2004，西安交通大學(xué)，熱能動(dòng)力及工程專業(yè)，學(xué)士

2025-至今，上海交通大學(xué)機(jī)動(dòng)學(xué)院，工程熱物理研究所，教授，博導(dǎo)

2017-2024, 上海交通大學(xué)機(jī)動(dòng)學(xué)院，工程熱物理研究所，副教授，博導(dǎo)
2012-2016, 上海交通大學(xué)機(jī)動(dòng)學(xué)院，工程熱物理研究所，助理研究員
2007-2008, 上海汽車集團(tuán)技術(shù)中心, 助理工程師

? 仿生流場能量采集器設(shè)計(jì)
? 火焰動(dòng)態(tài)特性、點(diǎn)火特性及燃燒不穩(wěn)定性研究
? 高精度三維成像優(yōu)化算法開發(fā)
? 圖像處理與深度學(xué)習(xí)算法應(yīng)用
? 高幀頻三維流場測速技術(shù)開發(fā)
? 相變材料開發(fā)、相變傳熱數(shù)值模擬與實(shí)驗(yàn)測試

2024-2027，國家自然科學(xué)基金項(xiàng)目，"基于深度學(xué)習(xí)的高時(shí)空分辨率三維粒子追蹤測速方法研究"，負(fù)責(zé)人；

2021-2024，澳大利亞自然科學(xué)基金項(xiàng)目，“Enhancing passive cooling using flexible baffles”,主要參與人；
2020-2022，國家自然科學(xué)基金委與英國皇家學(xué)會(huì)合作交流項(xiàng)目，“一種仿生微流體俘能器的非穩(wěn)態(tài)三維流動(dòng)特性實(shí)驗(yàn)研究”，負(fù)責(zé)人；
2020-2023，國家自然科學(xué)基金項(xiàng)目，“基于紋影成像系統(tǒng)的三維粒子追蹤測速方法研究”，負(fù)責(zé)人；
2016-2018，國家自然科學(xué)基金委與英國皇家學(xué)會(huì)合作交流項(xiàng)目，“基于壁面碰撞的火焰和液滴動(dòng)態(tài)特性實(shí)驗(yàn)和模擬研究”，負(fù)責(zé)人；
2014-2016，國家自然科學(xué)基金項(xiàng)目，“射流擴(kuò)散碰撞火焰動(dòng)態(tài)特性研究”，負(fù)責(zé)人；
2013-2016，上海市自然科學(xué)基金項(xiàng)目，“天然氣/氫氣混合氣碰撞火焰點(diǎn)火特性研究”，負(fù)責(zé)人；
2014-2016，教育部博士點(diǎn)新教師項(xiàng)目，“天然氣/氫氣混合氣射流擴(kuò)散火焰動(dòng)態(tài)特性研究”，負(fù)責(zé)人；
2014-2017，西北工業(yè)大學(xué)橫向課題，“組合發(fā)動(dòng)機(jī)燃燒流場火焰結(jié)構(gòu)高速動(dòng)態(tài)測試與分析”，負(fù)責(zé)人；
2017-2020，澳大利亞自然科學(xué)基金項(xiàng)目，“Transition of thermal boundary layers on heated flat and curved surfaces”，主要參與人；
2015-2017，新加坡教育部MOE Tier2基金項(xiàng)目，“Novel non-intrusive measurements and simulations of supersonic flows and noise”，主要參與人；
2012-2017,國家973項(xiàng)目子課題“多形態(tài)工業(yè)余熱高效存儲(chǔ)的新原理、新技術(shù)及其應(yīng)用”，主要參與人；
2012-2015,上海交通大學(xué)新進(jìn)教師啟動(dòng)基金“熱障涂層的輻射特性研究”，負(fù)責(zé)人；

Journal papers

2021-2025

[1] Q. Wang*, D. Zhuang, Y. Wu, W. Qu, J. Xiong, C.Y. Zhao, Dynamic characteristics of droplet impact on heated surfaces near Leidenfrost temperature, International Journal of Heat and Mass Transfer, 2025, 238, 126459.

[2] X. Mei, Q. Wang*, A physics-oriented shadowgraph motion estimation algorithm for turbulent flow structures, Aerospace Science and Technology, 2024, 145, 108888.

[3] Y. Han, Q. Wang*. An attention-mechanism incorporated deep recurrent optical flow network for particle image velocimetry. Physics of Fluids, 2023, 35 (7): 075122.

[4] X. Mei, S. Yuan, C. Zhao, X. Yan, C.Y. Zhao, Q. Wang*. Measuring three-dimensional bubble dynamics for hydrogen production via water electrolysis. Physics of Fluids, 2023, 35 (12): 123338.  

[5] Q. Wang*, H.J. Zhu, C.Y. Zhao, A parametric study of 3D PTV algorithms based on a two-view collimated imaging model, Measurement Science and Technology, 2023, 34, 035302.

[6] Q. Wang*, P. Zhu, X.H. Mei, V. Foroughi, J. Casal, E. Planas, A. Albadi, Y.C. Zhang, Y. Zhang, Experimental study of horizontally lifted high-speed nonpremixed flame jets, Experimental Thermal and Fluid Science, 2023, 140 (1)110774.

[7] Q. Feng, Q. Wang*, C.Y. Zhao, Experimental Study on Three-Dimensional Bubble Rising Behaviours by Virtual Stereo Vision, Journal of Applied Fluid Mechanics, 2023, 16:805-818.

[8] P. Zhu, Q. Wang*, D. Pan, T. Zhu, C. J, Experimental Study on Transient Ignition Characteristics of Acoustic Excited Methane Jet Diffusion Flames, Appl. Sci. 2022, 12, 9719.

[9] H.J. Zhu, C.Y. Zhao, Q. Wang*, Camera calibration algorithm development for a two-view collimated shadowgraph system, Measurement Science and Technology, 2022, 33, 095401.

[10] Y. Wu, C.Y. Zhao Q. Wang*, Volumetric particle tracking velocimetry with improved algorithms using a two-view shadowgraph system, Measurement Science and Technology, 2022, 33, 085301.

[11] Q. Wang*, J.T. Wang, X.H. Mei, et al. Imaging-based harmonic frequency analysis of a bluff-body premixed flame under acoustic excitations, Aerospace Science and Technology, 120 (2022) 107254.

[12] Y. Wu, Q. Wang*, C.Y. Zhao. A comparative study of the immiscibility effect on liquid drop impacting onto very thin films. Experiments in Fluids, 2021, 62:137.

[13] Q. Wang*, X.H. Mei, Y. Wu, C.Y. Zhao*. An Optimization and Parametric Study of a Schlieren Motion Estimation Method, Flow, Turbulence and Combustion, 2021,107, 609-630.

[14] Y. Wu, Q. Wang*, C.Y. Zhao. A Spatial-Temporal Algorithm for Three-Dimensional Particle Tracking Velocimetry using Two-view Systems, Measurement Science and Technology, 2021, 32, 065011.

[15] Q. Wang*, X.H. Mei, Z.Y. Wei, C.Y. Zhao, Y. Zhang. Experimental Investigation of Transient Ignition Dynamics of Hydrogen Enriched Methane Diffusion Impinging Flames, Fuel, 2021, 209(120027).

[16] 朱海軍，王倩*，梅笑寒，吳羽，趙長穎. 基于高速紋影/陰影成像的流場測速技術(shù)研究進(jìn)展[J]. 實(shí)驗(yàn)流體力學(xué)，2022，36（2）：49-73

[17] G. Wang, L. Fei, T. Lei, Q. Wang, K. Luo*, Droplet impact on a heated porous plate above the Leidenfrost temperature: A lattice Boltzmann study, Physics of Fluids, 2022, 34, 093319.

[18] X. Wen, K. Zhou, P. Liu, H. Zhu, Q. Wang, Y. Liu, Schlieren visualization of coflow fluidic thrust vectoring using sweeping jets, AIAA Journal, 2021, 60(1) 435-444.

[19] C. Zhao, S. Yuan, X. Cheng, S. Shen, N. Zhan, R. Wu, X. Mei, Q. Wang, L. An, X. Yan*, J. Zhang*, Agglomerate Engineering to Boost PEM Water Electrolyzer Performance, Advanced Energy Materials, 2024, 14, 2401588.

[20] Y. Zhang, G. Zhang, D. Wu, Q. Wang, E. Nadimi, P. Shi, H. Xu, Parameter sensitivity analysis for diesel spray penetration prediction based on GA-BP neural network, Energy and AI, 18, 2024,100443.

[21] S. Yuan, C. Zhao, X. Mei, S. Shen, Q. Wang, X. Yan*, J. Zhang*, Bubble management in PEM water electrolysis via imprinting patterned grooves on catalyst layer, International Journal of Heat and Mass Transfer, 212, 2023, 124249.

2006-2020  
[1] Y. Wu, Q. Wang*, C.Y. Zhao Three-Dimensional Droplet Splashing Dynamics Measurement With A Stereoscopic Shadowgraph System, International Journal of Heat and Fluid Flow, 2020, 83:108576.
[2]Q. Wang, Y. Wu, H.T. Cheng, X.H. Mei, C.Y. Zhao (2019) A Schlieren Motion Estimation Method for Seedless Velocimetry Measurement, Experimental Thermal and Fluid Science, 109:109880.
[3] Y. Chen, T. Yao, Q. Wang, K. Luo (2019) Large Eddy Simulation of Impinging Flames: Unsteady Ignition and Flame Propagation, Fuel, 255:155734.
[4] T. Yao, Q. Wang, K. Luo (2019) Formation and Evolution of Flame Kernels in Autoignition of A Turbulent Hydrogen/Air Mixing Layer at 50 atm, Fuel, 255:155753.
[5] Q. Wang, J. Wang, Y. Chen, C.Y. Zhao (2018) Experimental Investigation of Barium Hydroxide Octahydrate as Latent Heat Storage Materials, Solar Energy, 177:99-107.
[6] Q. Wang, Y. Zhang, C.Y. Zhao (2018) Experimental Investigation of Coflow Effect on the Ignition Process of a Methane Jet Diffusion Flame, Experimental Thermal and Fluid Science, 91:184-196.
[7] Q. Wang, R. Wu, Y. Wu, C.Y. Zhao (2018) Parametric Analysis of Using PCM Walls for Heating Loads Reduction, Energy and Buildings, 172:328-336.
[8] Q. Wang, C.Y. Zhao*, Yang Zhang (2015) Time-resolved 3D investigation of the ignition process of a methane diffusion impinging flame, Experimental Thermal and Fluid Science, 62:78-84.
[9] Q. Wang, C.Y. Zhao* (2015) Parametric investigations of using a PCM curtain for energy efficient buildings, Energy and Buildings, 94:33-42.
[10] Q. Wang,* J.S. Yang, H.W. Huang, Y. Zhang, C.Y. Zhao (2014) Three-dimensional Investigation of the Dynamics of a Propane Diffusion Flame, Fuel, 116:448-454.
[11] Q. Wang*, Y. Zhang (2011) High Speed Stereoscopic Shadowgraph Imaging and Its 3D Reconstruction, Measurement Science and Technology, 22: 065302 (9pp).
[12] Q. Wang*, H.W. Huang, Y. Zhang, C.Y Zhao (2013) Impinging Flame Ignition and Propagation Visualization Using Schlieren and Colour-enhanced Stereo Imaging Techniques, Fuel, 108:177-183.
[13] Q. Wang*, H.W. Huang, H.J. Tang, M. Zhu, Y. Zhang (2013) Nonlinear Response of Buoyant Diffusion Flame under Acoustic Excitation, Fuel, 103 364-372.
[14] Q. Wang*, Y. Zhang (2012) Spark Characteristics Investigation of a Gas Turbine Igniter, Combustion Science and Technology, 184(10-11), 1526-1540.
[15] Q. Wang*, Y. Zhang, H.J. Tang, M. Zhu (2012) Visualisation of Diffusion Flame/Vortex Structure and Dynamics under Acoustic Excitation, Combustion Science and Technology, 184(10-11), 1445-1455.
[16] Q. Wang*, H. Gohari Darabkhani, L. Chen, Y. Zhang (2012) Vortex Dynamics and Structures of Methane/air Jet Diffusion Flames with Air Coflow, Experimental Thermal and Fluid Science, 37:84-90.
[17] L. Chen, Q. Wang, Y. Zhang,* (2013) Flow Characterisation of Diffusion Flame under Non-resonant Acoustic Excitation, Experimental Thermal and Fluid Science, 45:227-233.
[18] H.W. Huang,* J. S. Yang, Q. Wang, Y. Zhang (2013) Variation of Hydrocarbon Compositions and Ignition Locations on the Radiative Flame Initiation Characteristics through Multi-dimensional DFCD Incorporated Image Analysis, Fuel, 103: 334-346.
[19] J. Yang, F.M.S. Mossa, H.W. Huang, Q. Wang, R. Woolley, Y. Zhang (2015) Oscillating flames in open tubes, Proceedings of the Combustion Institute, 35(2):2075-2082.
[20] L. Chen, Q. Wang, Y. Zhang* (2012) Flow Characterization of Diffusion Flame in a Standing Wave, Experimental Thermal and Fluid Science, 41:84-93.
[21] H.W. Huang*, Q. Wang, H.J. Tang, M. Zhu, Y. Zhang (2012) Characterization of External Acoustic Excitation on Diffusion Flames Using Digital Colour Image Processing, Fuel , 94:102-109.
[22] H. Gohari Darabkhani*, Q. Wang, L. Chen, Y. Zhang (2011) Impact of Co-flow Air on Buoyant Diffusion Flames Flicker, Energy Conversion and Management, 52:2996-3003.
[23] Z.H. Liu,* G.D. Tao, Lin Lu, Q. Wang (2014) A novel all-glass evacuated tubular solar steam generator with simplified CPC, Energy Conversion and Management , 86:175-185.
[24] Y.Y. Li, Z.H. Liu, Q. Wang (2014) Experimental study on critical heat flux of steady boiling for high-velocity slot jet impinging on the stagnation zone, International Journal of Heat and Mass Transfer, 70:1-9.
[25] Zuohua Huang,* Yong Zhang, Ke Zeng, Bing Liu, Qian Wang, Deming Jiang, (2006) Measurements of Laminar Burning Velocities for Natural Gas-Hydrogen-Air Mixtures, Combustion and Flame, 146:302–311.
[26] Zuohua Huang,* Yong Zhang, Qian Wang, Jinhua Wang, Deming Jiang, and Haiyan Miao, Study on Flame Propagation Characteristics of Natural Gas-Hydrogen-Air Mixtures, Energy & Fuels, 20 (2006) 2385-2390.

Book chapters
[1] Q. Wang, Y. Zhang, C.Y. Zhao, Stereoscopic Schlieren/Shadowgraph 3D Reconstruction Techniques and Its applications, Book Chapter in NOVA Edited book “3D Reconstruction: Methods, Applications and Challenges”, 2014.

Conference papers
[1]Y. Wu, Q. Wang, C.Y. Zhao, Three-dimensional Measurement of Droplet Splashing Dynamics with A Stereoscopic Shadowgraph System, 12th Asia-Pacific Conference on Combustion, July 1-5, 2019, Fukuoka, Japan.
[2] Y. Wu, Q. Wang, C.Y. Zhao, C. Lei, 3D Tracing of Particle Transport in Natural Convection Using a Stereoscopic Shadowgraph System, Proceedings of the 16th International Heat Transfer Conference, Aug 10-15, 2018, Beijing, China.
[3] Yiran Chen, Tong Yao, Qian Wang, K.H Luo, Large-eddy simulation and experimental study on a turbulent impinging flame, 8th European Combustion Meeting, April 18-21, 2017, Dubrovnik, Croatia.
[4] Q. Wang, Quantitative Measurement Based on Schlieren/Shadowgraph Images:
From 2D to 3D, Invited talk, 2016 International Workshop on Detonation for Propulsion, July 12-15, Singapore.
[5] Q. Wang, J.S. Yang, Y.R. Wang, Y. Zhang, C.Y. Zhao, Experimental Investigation of Co-flow Effect on Ignition Process of a Methane Jet Diffusion Flame, 25th ICDERS Conference, August 2-7, 2015, Leeds, UK.
[6] Q. Wang*, C.Y. Zhao, Y. Zhang, Experimental Investigation of the Ignition Process of a Methane Diffusion Impinging Flame, 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics,14-26 July, 2014, Orlando, Florida, USA.
[7] J. Yang, F.M.S. Mossa, H.W. Huang, Q. Wang, R. Woolley, Y. Zhang, Oscillating flames in open tubes, 35th International Symposium on Combustion, August 3-8, 2014, San Francisco, California, USA.
[8] D. Shen, C.Y. Zhao*, Q. Wang, Investigation of Heat and Mass Transfer in a Magnesium Hydride Heat Storage Reactor, Proceedings of the 15th International Heat Transfer Conference, IHTC-15, August 10-15, 2014, Kyoto, Japan
[9] Q. Wang, Y. Zhang, C.Y. Zhao, Stereoscopic Schlieren Investigation of a Propane Diffusion Flame, 8th World Conference on Experimental Heat Transfer, Fluid Mechanics, and Thermodynamics, June 16-20, 2013, Lisbon, Portugal.
[10] Q. Wang, HW Huang, Y. Zhang M. Zhu, HJ Tang, 3D Visualisation of Diffusion Flame Structure and Dynamics under Acoustic Excitation, 23rd ICDERS Conference, July 24-29, 2011, University of California, Irvine, California, USA;
[11] Q. Wang, Y. Zhang, High Speed Stereoscopic Shadowgraph and Its Digital 3D Reconstruction, 23rd ICDERS Conference, July 24-29, 2011, University of California, Irvine, California, USA;