2011.12 - 2014.12美国俄亥俄州立大学 航空工程专业博士
2008.9 - 2011.12美国俄亥俄州立大学 航空工程专业硕士
2004.9 - 2008.7北京航空航天大学学士

2015.02 - 2017.12 bat365在线中国官网登录入口 叶轮机械研究所 讲师
2017.12 - 2021.07 bat365在线中国官网登录入口 叶轮机械研究所 副教授
2018.06 - 至今 bat365在线中国官网登录入口 叶轮机械研究所 副所长
2021.07 - 至今 bat365在线中国官网登录入口 叶轮机械研究所 教授

***实验室长期招收下列专业博士与硕士***
动力工程、机械工程、航空航天、力学、材料工程，招收2025年硕士，2026年博士/硕士，欢迎邮件联系。

实验室面向航空发动机、燃气轮机与高速飞行器，开发精细化、智能化的先进测量传感技术，通过光学方法实现力、热、变形等多物理场信息的时空多维度重建，深入揭示高温、高转速与高速飞行条件下流、固、热及其耦合机制，为提升飞行器及发动机性能提供关键支撑。

实验室获国家自然科学基金重大仪器研制、优青、面上等项目资助，近5年在流动、传热与航空航天领域权威期刊发表SCI论文50余篇，获国家发明专利授权7项。与美国俄亥俄州立大学（OSU）、宾夕法尼亚州立大学（PSU）、英国曼彻斯特大学、韩国釜山国立大学开展联合研究，合作发表论文近10篇。

研究成果已广泛应用于航空发动机、燃气轮机、高超声速飞行器以及高速直升机等重大装备的研发。与国内相关领域重点单位以及国际知名企业建立了稳定合作关系，包括中航工业、中国航发、中国气动研究发展中心、宝钢、德国西门子、日本IHI重工等。

核心技术：
1. 智能图像视觉与三维重建
开发机器视觉、结构光、数字散斑等前沿光学传感技术，实时获取三维模型在复杂流场中的全局信息（压力、温度、变形等）。

2. 时空多尺度数据分析与数据融合
基于kHz高速图像采集得到的海量数据，采用POD、DMD等时空关联分析方法准确识别并提取关键物理信息，同时与数值仿真有机融合，显著提升流动与传热预测精度。

3. 先进功能材料（压敏/温敏荧光材料、智能热障涂层，仿生功能薄膜）
将智能光学材料与微纳功能结构相结合，实现微秒时间尺度与微米空间尺度的流动传热精细测量。

《Experiments in Fluids》顾问编委，PSP/TSP专栏客座编辑
《Advances in Aerodynamics》《气体物理》编委
《力学学报》青年编委
中国空气动力学会流动显示专委会 委员
中国空气动力学会低跨超专委会 委员
担任Physics of Fluids, Experiments in Fluids, International Journal of Heat & Mass Transfer, Sensors & Actuators A/B, Journal of Luminescence, Measurement Science & Technology等近20本中英文高水平期刊的审稿人

国家/省部级课题

2024.01 - 2027.12 国家自然科学基金面上项目，“荧光压敏薄膜水下模型表面压力场测量技术研究”，负责人

2021.01 - 2023.12 国家自然科学基金优秀青年项目，“流体力学压力与温度场光学测量原理及方法”，负责人

2019.01 - 2022.12 国家自然科学基金面上项目，“基于氧空位诱发氧猝灭效应的高温压力敏感涂层测量技术研究”，负责人

2018.10 - 2020.09 航空科学基金重点项目，“基于PSP的直升机旋翼桨叶表面压力测量技术研究”, 负责人

2016.01 - 2018.12 国家自然科学基金青年项目，“基于多孔压敏荧光粒子的空间压力场与速度场同步测试技术研究”，负责人

2015.09 - 2018.12 973项目课题，“基于快响应压敏漆的xx测量方法研究”，负责人

企业合作课题

2019.05 - 2022.12 宝钢联合研究项目，“钢水成分LIBS测量技术研究及装备集成”，负责人

2019.12 - 2020.12 中国航发608所，“涡轮气动传热的压敏漆与温敏漆光学测试技术研究与验证”，负责人

2019.06 - 2020.03 石川岛公司（IHI）联合研究项目，“基于高温TSP的增压器涡轮温度测量技术研究”，负责人

2017.06 - 2021.06 上海交大-西门子博士联合培养项目，“工业4.0在数字化测量领域中的应用”，负责人

2017.10 - 2018.09 石川岛公司（IHI）联合研究项目，“涡轮增压器部件压敏漆与温敏漆测量方法评估与验证”，负责人

2016.09 - 2017.08 西门子（中国）联合研究项目，“基于LIBS的热障涂层激光蚀刻过程监测与控制技术研究”，负责人

2016.05 - 2017.01 西门子（中国）联合研究项目，“基于多功能稀土材料的热障涂层应力检测技术研究”，负责人

2016.01 - 2017.06 石川岛公司（IHI）联合研究项目，“基于快响应压敏漆的涡轮增压器压气机流场诊断技术研究”，负责人

2015.04 - 2015.11 西门子（中国）联合研究项目，“热障涂层非接触式温度检测技术研究”，主要完成人

校内课题

2020.01 - 2021.12 上海交大重点前瞻布局基金，“超高温陶瓷（>2000度）热防护技术”，负责人

2015.02 - 2017.12 上海交大青年教师启动计划，“基于快响应PSP与POD分析的低速流动非定常压力测量技术研究”，负责人

2015.04 - 2016.04 上海交大燃气轮机研究院科研项目，“带温度修正的快响应压敏漆开发及其在高速旋转叶片压力测试中的应用”，负责人

中文期刊论文
1. 彭迪*,李永增,焦灵睿,刘应征.快响应PSP应用于旋转叶片测试的挑战与对策[J].工程热物理学报,2020,41(06):1350-1358.
2. 彭迪*,李永增,刘旭,焦灵睿,刘应征.高超声速快响应PSP测量技术研究进展[J/OL].实验流体力学:1-10[2022-03-15].
3. 刘旭,彭迪*,刘应征.温敏涂料TSP热流密度测量方法及应用[J].气体物理,2020,5(05):1-12.
4. 蔡涛,赵晓峰,刘应征,彭迪*.基于磷光光学特性的热障涂层热力参数测量技术[J].中国材料进展,2020,39(10):728-739.
5. 杨丽霞,付雅婷,赵晓峰,陈照峰,彭迪,牟仁德,刘德林.热障涂层在线/离线磷光温度测量技术研究进展[J].航空制造技术,2022,65(03):71-81.

英文SCI论文（第一/通讯作者）
Most recent
1. Cai, T., Luan, D., Fu, R., Liu, Y., Peng, D.*, Cai, W., Liu, H., 2025, “Simultaneous Temperature and Velocity Measurements Based on Novel Fluid Density-Matched Phosphorescent Microspheres,” Experiments in Fluids, under review.
2. Zhu, Z., Dong, Z., Tang, K., Li, J., Liu, Y., Peng, D.*, 2025, “A Contour Matching-Based Direct Linear Transformation Method for Reconstructing 3D Pressure Fields from Pressure-Sensitive Paint Measurements Under Limited Optical Access,” Measurement, vol.242, 115795.

2024
3. Li, M., Zhao, X., Liu, Y., Peng, D.*, Cai, W., Liu, H., 2024, “YAG:Dy co-doped with Tb for lifetime-based phosphor thermometry from room temperature to 1600 ℃,” Sensors and Actuators A: Physical, vol.379, 115890.
4. Chen, J., Liu, Y., Cao, Z., Peng, D.*, Wang, B., Liao, S., 2024, “Static pressure response model of fluorescent pressure-sensitive film for underwater surface pressure measurement,” Flow Measurement and Instrumentation, vol.99, 102677.
5. Cai, T., Fu, R., Luan, D., Liu, Y., Peng, D.*, 2024, “Three-dimensional surface temperature measurement using lifetime-based phosphor thermometry,” Measurement Science and Technology, vol.35, 105022.
6. Gu, F., Wei, C., Jiao, L., Liu, Y., Peng, D.*, 2024, “Dual-luminophore fast-responding pressure-sensitive paint for the simultaneous elimination of motion- and temperature-induced errors,” Measurement Science and Technology, vol.35, 095205.
7. Di, Y., Gu, F., Liu, Y., Peng, D.*, 2024, “A Deep-learning Image Registration Method for Pressure-sensitive Paint Measurement,” Measurement Science and Technology, vol.35, 085201.
8. Liu, X., Chen, L., Zhang, Y., Tan, H., Liu, Y., Peng, D.*, 2024, “Spanwise unsteadiness in the sidewalls-confined shock-wave/boundary-layer interaction,” Journal of Fluid Mechanics, vol.987, R6.
9. Gu, F., Discetti, S.*, Liu, Y., Cao, Z., Peng, D.*, 2024, “Denoising Image-based Experimental Data without Clean Targets based on Deep Autoencoders,” Experimental Thermal and Fluid Science, vol.156, 111195.
10. Li, M., Cai, H., Wang, P., Cheng, W., Zhang, H., Zhao, X.*, Peng, D.*, 2024, “Thermal history sensing from 1000 ℃ to 1400 ℃ based on phase transformation from Y3Al5O12 and Y4Al2O9 to YAlO3 through the intensity ratio method”, Ceramics International, vol.50, no.11, 19702-19708.
11. Jiao, L., Shi, Z., Wei, C., Ma, S., Wen, X., Liu, Y., Peng, D.*, 2024, “Fast PSP Measurements of Dynamic Stall on a Pitching Airfoil via Intensity- and Lifetime-Based Methods,” Journal of Visualization, vol.27, 333-352.
12. Liu, X., Zhuang, Y.*, Zhang, Y., Wang, G., Liu, Y., Peng, D.*, 2024, “Time-resolved heat flux determination from fast-responding temperature-sensitive paint measurement in a shock tunnel,” Measurement Science and Technology, vol.35, 035016.
13. Liu, X., Zhong, J., Dong, Z., Fan, X., Zou, D., Liu, Y., Peng, D.*, 2024, “Analysis of Large-scale Unsteadiness in the Hypersonic Lateral Jet Interaction on a Slender Cylinder Using Fast-responding Pressure-sensitive Paint,” Experimental Thermal and Fluid Science, vol.152, 111113.
14. Cheng, W., He, Z., Ni, N., Liu, Y., Peng, D.*, Zhao, X.*, 2024, “A phase transformation-phosphorescence model of europium doped yttria-stabilised zirconia and its application in two-dimensional temperature history measurement,” Journal of Luminescence, vol.266, 120281.
15. Cheng, W., Liu, Y., Peng, D.*, 2024, “Parametric study of intensity-ratio-based phosphor thermometry using Mg4FGeO6:Mn4+ for instantaneous temperature measurement,” Measurement Science and Technology, vol.35, 015204.

2023
16. Dong, Z., Gu, F., Chen, R., Yang, J., Zhou, W., Liu, Y., Peng, D.*, 2023, “Three-Dimensional Pressure Field Measurement on Turbine Guide Vanes Using a Dynamic Distortion Correction Endoscopic Pressure-Sensitive Paint Technique,” Experiments in Fluids, vol.64, 97.
17. Yuan, C., Meng, F., Liu, X., Liu, Y., Lian, H., Liu, Y., Peng, D.*, 2023, “Method of applying temperature-sensitive paint in hypersonic test with strong combustion radiation,” Acta Mechanica Sinica, vol.39, no.8, 322474.
18. Yang, L., Fu, Y., Cheng, W., Peng, D.*, Chen, Z.*, Zhao, X., Kou, Z., Liu, Y., 2023, “Europium and erbium co-doped yttria-stabilized zirconia as a potential dual-sensor for simultaneous oxygen partial pressure and temperature measurements”, Ceramics International, vol.49, no.7, 10961-10975.
19. Liu, X., Chen, Q., Zhao, K., Wang, P.*, Liu, Y., Peng, D.*, 2023, “Identification of discrete tonal noises of high-speed inclined impingement jet using Fast PSP,” AIAA Journal, vol.61, no.2, 626-639.
20. Cheng, W., Li, Y., Liu, X., Liu, Y., Peng, D.*, 2023, “Lifetime-based phosphor thermometry for global heat flux measurement in a hypersonic rarefied tunnel under strong background radiation,” Experimental Thermal and Fluid Science, vol.142, 110821.

2022
21. Gu, F., Wei, C., Liu, Y., Peng, D.*, Liang, L.*, 2022, “Temperature sensitivity elimination in sprayable fast-responding pressure-sensitive paint,” Sensors and Actuators A: Physical, vol.345, 113797.
22. Yang, L., Fu, Y., Cheng, W., Chen, Z.*,Peng, D.*, Zhao, X., Kou, Z., 2022, “Enhancement of oxygen/pressure sensing performance of Eu3+-doped YSZ phosphors via Bi3+ sensitization”, Ceramics International, vol.48, no.21, 31587-31597.
23. Li, Y., Dong, Z., Liu, Y., Peng, D.*, 2022, “A Dual-Camera Single-Shot Lifetime Method with Fully Controllable Exposure Gates for Pressure-Sensitive Paint Measurements on Fast-Rotating Surfaces,” Measurement Science and Technology, vol.33, 105203.
24. Dong, Z., Li, Y., Jiao, L., Zhang, W., Liu, Y., Peng, D.*, 2022, “Pressure-Sensitive Paint Integrated with Digital Image Correlation for Instantaneous Measurement on Fast-Rotating Blades”, Aerospace Science and Technology, vol.126, 107667.
25. Liu, X., Chen, Q., Tang, Y., Qi, L., Zhao, K., Wang, P.*, Liu, Y., Peng, D.*, 2022, “Resolving dynamic features of kHz pressure fluctuations using fast PSP: measurement of inclined jet impingement,” Experiments in Fluids, vol.63, 72.
26. Wei, C., Jiao, L., Tong, Fan., Chen, Z., Liu, Y., Peng, D.*, 2022, “Pressure field measurements on large scale propeller blades using pressure-sensitive paint,” Acta Mechanica Sinica, vol.38, 121366.
27. Liu, X., Zhang, L., He, M.*, Liu, Y., Peng, D.*, 2022, “Three-dimensional low frequency unsteadiness of a sidewalls-confined compression shock wave/boundary layer interaction: global time-resolved measurement using fast pressure-sensitive paint,” Experimental Thermal and Fluid Science, vol.134, 110599.
28. Yang, L., Zhong, B., Kou, Z., Peng, D.*, Chen, Z.*, Yu, M., Zhao, X., 2022, “Concentration effect on the ‘oxygen quenching’ of EuxY0.08-xZr0.92O1.96 and DyxY0.08-xZr0.92O1.96 phosphors”, Journal of the American Ceramic Society, vol.105, no.1, 428-440.

2021
29. Zhou, B., Gu, F., Liu, Y., Peng, D.*, 2021, “Signal Enhancement of Pressure-Sensitive Film Based on Localized Surface Plasmon Resonance”, Sensors, vol.21, no.22, 7627.
30. Liu, X., Gu, F., Liu, Y., Peng, D.*, 2021, “Pressure sensitivity of a ruthenium complex based temperature-sensitive paint and its effect on heat flux determination in high-speed flows,” Measurement Science and Technology, vol.32, 084016.
31. Li, Y., Dong, Z., Liang, L.*, Liu, Y., Peng, D.*, 2021, “Simultaneous 3D Surface Profile and Pressure Measurement Using Phase-Shift Profilometry and Pressure-Sensitive Paint,” Review of Scientific Instruments, vol.92, 035107.
32. Chen, J., Liu, Y., Cao, Z., Peng, D.*, 2021, “Pressure field measurements using bio-inspired pressure-sensitive film with adjustable sensitivity and range”, Experiments in Fluids, vol.62, 51.
33. Peng, D., Liu, X., Jiao, L., Li, Z., Wen, X., Yuan, C.*, Han, G., Liu, Y., Liu, Y.*, Jiang, Z., 2021, “Noise Reduction Method for Temperature-Sensitive Paint Measurement Contaminated by Strong Background Radiation in a High Enthalpy Hypersonic Tunnel,” Acta Mechanica Sinica, vol.37, no.1, 20-26.
34. Peng, D., Gu, F., Zhong, Z., Liu, Y.*, 2021, “Thermal Stability Improvement of Sprayable Fast-Responding Pressure-Sensitive Paint for Measurement above 100℃,” Chinese Journal of Aeronautics, vol.34, no.1, 320-326.
35. Chen, W., Liu, Y., Wang, W., Zhao, X., Peng, D.*, 2021, “Interface detection from laser drilling of air plasma sprayed thermal barrier coatings by laser-induced breakdown spectroscopy”, Optics and Lasers in Engineering, vol.137, 106351.

2020
36. Li, X., Liu, X., Liu, Y., Peng, D.*, 2020, “Experimental Study of Near-Wall Underexpanded Jet Impingement on a Flat Plate Using Semi-Transparent Pressure-Sensitive Paint,” Experiments in Fluids, vol.61, 232.
37. Liu, X., Shao, H., Zhou, W., Liu, Y., Peng, D.*, 2020, “Apparent temperature in temperature-sensitive paint measurement and its effect on heat flux determination in hypersonic flow,” Measurement Science and Technology, vol.31, no.12, 125302.
38. Cai, T., Guo, S., Li, Y., Peng, D.*, Zhao, X.*, Wang, W., Liu, Y., 2020, “Ultra-Sensitive Mechanoluminescent Ceramic Sensor based on Air-Plasma-Sprayed SrAl2O4:Eu2+, Dy3+ Coating,” Sensors and Actuators A: Physical, vol.315, 112246.
39. Peng, D., Xie, F., Liu, X., Lin, J.*, Li, Y., Zhong, J., Zhang, Q., Liu, Y.*, 2020, “Experimental Study on Hypersonic Shock-Body Interaction between Bodies in Close Proximity Using Translucent Fast Pressure- and Temperature-Sensitive Paints,” Experiments in Fluids, vol.61, 120.
40. Jiao, L., Liu, X., Shi, Z. *, Zhang, W., Liang, L., Chen, X., Zhao, Q., Peng, D.*, Liu, Y., 2020, “A two-dimensional temperature correction method for pressure-sensitive paint measurement on helicopter rotor blades”, Experiments in Fluids, vol.61, 104.
41. Chen, J., Liu, Y., Peng, D.*, 2020, “A bio-inspired functional film embedded with fluorescent elastic microspheres for pressure sensing”, Applied Physics Letters, vol.116, 123701.
42. Li, Y., Cai, T., Yang, L., Peng, D.*, Zhao, X., Liu, Y., 2020, “Effect of Oxygen Partial Pressure on Phosphorescence for Different Lanthanide Ions Ln3+ Doped Yttria-Stabilized Zirconia”, Sensors and Actuators B: Chemical, vol.308, 127666.
43. Dong, Z., Liang, L., Zhang, W.*, Jiao, L., Peng, D.*, Liu, Y., 2020, “Simultaneous Pressure and Deformation Field Measurement on Helicopter Rotor Blades using a Grid-Pattern Pressure-Sensitive Paint System”, Measurement, vol.152, 107359.
44. Peng, D., Liu, Y.*, 2020, “Fast Pressure-Sensitive Paint for Understanding Complex Flows: From Regular to Harsh Environments”, Experiments in Fluids (Invited Review), vol.61, 8.
45. Li, X., Liu, Y., Peng, D.*, 2020, “Suppression of thermal quenching in fast-responding pressure-sensitive paint by restricting lattice relaxation of luminescent molecules”, Journal of Luminescence, vol.217, 116803.

2019
46. Zhou, W., Yuan, L., Wen, X., Liu, Y., Peng, D.*, 2019, “Enhanced impingement cooling of a circular jet using a piezoelectric fan,” Applied Thermal Engineering, vol.160, 114067.
47. Guo, S., Cai, T., Zhao, X. *, Peng, D.*, Xiao, P., Wang, W., Liu, Y., 2019, “Generalization of the quantitative stress-intensity relationship of mechanoluminescent sensor SrAl2O4:Eu2+,Dy3+ in elastic domain”, Measurement Science and Technology, vol.30, no.7.
48. Jiao, L., Chen, Y., Wen, X., Peng, D.*, Liu, Y., Gregory, J.W., 2019, “Resolving Vortex-Induced Pressure Fluctuations on a Cylinder in Rotor Wake Using Fast-Responding Pressure-Sensitive Paint”, Physics of Fluids, vol.31, no.5.
49. Peng, D., Zhong, Z., Gu, F., Zhou, W., Qi, F., Liu, Y.*, 2019, “Pressure-Sensitive Paint with Imprinted Pattern for Full-Field Endoscopic Measurements Using a Color Camera”, Sensors and Actuators A: Physical, vol.290, pp.28-35.
50. Cai, T., Li, Y., Guo, D., Peng, D.*, Zhao, X., Liu, Y., 2019, “Pressure Effect on Phosphor Thermometry Using Mg4FGeO6:Mn,” Measurement Science and Technology, vol.30, no.2.
51. Zhou, W., Qenawy, M., Liu, Y., Wen, X., Peng, D.*, 2019, “Influence of mainstream flow oscillations on spatio-temporal variation of adiabatic film cooling effectiveness,” International Journal of Heat and Mass Transfer, vol.129, pp.569-579.

2018
52. Zhou, W., Chen, H., Liu, Y., Wen, X., Peng, D.*, 2018, “Unsteady analysis of adiabatic film cooling effectiveness for discrete hole with oscillating mainstream flow,” Physics of Fluids, vol.30, no.12.
53. Wen, X., Liu, Y., Li, Z., Chen, Y., Peng, D.*, 2018, “Data mining of a clean signal from highly noisy data based on compressed data fusion: a fast-responding pressure-sensitive paint application,” Physics of Fluids, vol.30, no.9.
54. Peng, D., Zhong, Z., Cao, T., Guo, S., Zhao, X., Liu, Y.*, 2018, “Integration of Pressure-Sensitive Paint with Persistent Phosphor: A Light-Charged Pressure-Sensing System,” Review of Scientific Instruments, vol.89, no.8.
55. Peng, D., Gu, F., Li, Y., Liu, Y.*, 2018, “A Novel Sprayable Fast-Responding Pressure-Sensitive Paint Based on Mesoporous Silicone Dioxide Particles,” Sensors and Actuators A: Physical, vol.279, pp.390-398.
56. Jiao, L., Peng, D.*, Liu, Y., 2018,”Dynamic Response of Polymer Ceramic Pressure-Sensitive Paint: Improved Model Considering Thickness Effect,” AIAA Journal, vol.56, no.7, pp.2903-2906.
57. Cai, T., Guo, S., Li, Y., Peng, D.*, Zhao, X.*, Liu, Y., 2018, “Quantitative Stress Measurement of Elastic Deformation Using Mechanoluminescent Sensor: An Intensity Ratio Model,” Review of Scientific Instruments, vol.89, no.4.
58. Peng, D., Chen, J., Jiao, L., Liu, Y.*, 2018, “A Fast-Responding Semi-Transparent Pressure-Sensitive Paint Based on Through-Hole Anodized Aluminum Oxide Membrane,” Sensors and Actuators A: Physical, vol.274, pp.10-18.
59. Peng, D., Chen, J., Yu, Y., Jiao, L., Liu, Y.*, 2018, “A Novel Laminated OLED-PSP System for Measurement on Moving Surfaces,” Journal of Visualization, vol.21, no.2, pp.215-223.
60. Yang, L., Peng, D.*, Xiao, S., Guo, F., Liu, Y., Zhao, X. *, Xiao, P., 2018, “Oxygen Quenching in Eu-based Thermographic Phosphors: Mechanism and Potential Application in Oxygen/Pressure Sensing,” Sensors and Actuators B: Chemical, vol.254, pp.578-587.

Prior to 2018
61. Peng, D., Jiao, L., Yu, Y., Liu, Y.*, Oshio, T., Kawakubo, T., Yakushiji, A., 2017, “Single-Shot Lifetime-Based PSP and TSP Measurements on Turbocharger Compressor Blades,” Experiments in Fluids, vol.58, no.9.
62. Peng, D. *, Gregory, J.W., 2017, “Asymmetric Distributions in Pressure/Load Fluctuation Levels during Blade-Vortex Interactions,” Journal of Fluids and Structures, vol.68, pp.58-71.
63. Peng, D., Jiao, L., Sun, Z., Gu, Y., Liu, Y. *, 2016, “Simultaneous PSP and TSP Measurements of Transient Flow in a Long-Duration Hypersonic Tunnel,” Experiments in Fluids, vol.57, no.12.
64. Peng, D., Yang, L., Cai, T., Liu, Y.*, Zhao, X., Yao, Z., 2016, “Phosphor-Doped Thermal Barrier Coatings Deposited by Air Plasma Spray for In-Depth Temperature Sensing,” Sensors, vol. 16, no. 10, 1490.
65. Peng, D., Liu, Y. *, Zhao, X., Kim, K.C., 2016, “Comparison of Lifetime-Based Methods for Two-Dimensional Phosphor Thermometry in High-Temperature Environment,” Measurement Science and Technology, vol. 27, no. 9, 095201.
66. Peng, D., Wang, S., Liu, Y. *, 2016, “Fast PSP Measurements of Wall-Pressure Fluctuation in Low Speed Flows: Improvements Using Proper Orthogonal Decomposition,” Experiments in Fluids, vol.57, no.4, 45
67. Peng, D., Liu, Y. *, 2016, “Grid-Pattern PSP/TSP System for Simultaneous Pressure and Temperature Measurements,” Sensors and Actuators B: Chemical, vol.222, pp.141-150.
68. Peng, D. *, Gregory, J.W., 2015, “Vortex Dynamics during Blade-Vortex Interactions,” Physics of Fluids, vol.27, no.5.
69. Peng, D., Jensen, C.D., Juliano, T.J., Gregory, J.W., Crafton, J.W., Palluconi, S., 2013, “Temperature-Compensated Fast Pressure-Sensitive Paint,” AIAA Journal, vol. 51, no. 10, pp. 2420-2431.

已授权发明专利：
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