教师名录
饶宇 教授
所在系所叶轮机械研究所
办公电话021-34205986
通讯地址hga010网页登录A楼531室
电子邮件yurao@sjtu.edu.cn
个人主页
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教育背景
2001-2006 北京航空航天大学-德国Darmstadt工业大学联合培养博士;
2003.10-2005.09 德国Darmstadt工业大学热力技术研究所联合培养博士生 (德国DAAD奖学金获得者);
2002.09-2003.04 同济大学留德预备部,德语培训(国家留学基金委派遣);
2000-2001 北京航空航天大学硕士生 ;
1996-2000 北京航空航天大学学士 -
工作经历
2015.01 上海交通大学 hga010网页登录 教授;博士生导师,副所长(2012-2018);
2014/03-08月, 2015/03-08月, 2016/07-08月, 2017/07-08月, 2018/07-08月德国 斯图加特大学 航空航天热力技术研究所,访问教授,DAAD-K.C. Wong Fellowship,DFG International Research Program;
2013.06-08 美国 Iowa State University 航空工程系,访问研究人员;
2009.12-2014.12 上海交通大学 hga010网页登录叶轮机械研究所 副教授;
2007.4- 2009.12 上海交通大学hga010网页登录叶轮机械研究所 讲师;
2006.11- 2007.4 德国Darmstadt工业大学热力技术研究所博士后研究人员; -
研究方向
1 先进燃气轮机/航空发动机气动、传热与冷却技术;
2 基于增材制造TPMS晶格的先进冷却与高性能换热器技术;
3 旋转涡轮叶片流动传热实验和数值模拟方法;
4 流动控制与强化传热及流动减阻技术(低压涡轮,风力涡轮,无人机旋翼、螺旋桨等);
5 基于红外、热色液晶和磷光材料的高温部件热测试技术;
本实验室欢迎对上述研究方向感兴趣的本科生、硕士生和博士生、博士后参加科学研究。本实验室尊重每位科研人员的创新科研精神,并提供具体的学术指导和充分的实验条件。 -
科研项目
28 中央军委装备发展部,模块化增材制造微通道换热器xxxxx, 负责人,2023-2024;
27 中国航发商用航空发动机公司,xx涡轮间隙主动控制冲击换热xxx,负责人,2023;
26 中国重型燃气轮机公司,先进燃气轮机透平叶片内部冷却强化技术,负责人,2023;
25 中德科学中心(国家自然科学基金-德国科学基金会DFG),中德合作研究小组,先进冷却技术与燃气轮机/航空发动机性能,2021-2024,负责人;
25 中国航天空气动力研究院xxx,高空无人机螺旋桨低雷诺数气动增效技术,负责人,2023;
24 中央军委创新特区,高空无人机低雷诺数翼形表面涡流减阻xxx, 负责人,2021;
23 中国航发沈阳发动机研究所 (606),静态和旋转涡轮叶片冷却技术,2020-2021,负责人;
22 中央军委装备发展部,xxx低雷诺数涡轮流动增效技术, 2020-2021,负责人;
21 国家自然科学基金,涡轮叶片涡流冷却机理;2020-2023,负责人;
20 上海市科委国际合作,航空发动机涡轮叶片旋流-气膜冷却机理,2020-2023,负责人;
19 国家航空发动机与燃气轮机重大科技专项,先进透平叶片内部冷却;2019-2023,负责人;
18 国家自然科学基金项目,微小结构化肋诱发涡流增强凹陷涡对流冷却机理研究,2017-2020,负责人;
17 上海市科委项目,先进燃气轮机旋流冷却技术研究,2017-2019,负责人;
16 上海交通大学燃气轮机研究院,先进结构化表面冲击冷却技术研究,2014-2016,负责人;
15 德国科学基金会DFG-DAAD K.C.Wong Fellowship研究项目(斯图加特大学 Weigand教授),2014-2015,合作参与;
14 高超飞行器xxxx再生冷却技术子项目,凹陷涡发生器强化碳氢燃料流动传热性能研究,2014-2016,负责人;
13 "985三期"学科建设,富氢燃气涡轮气膜冷却与内部冲击冷却耦合流动与传热机理研究,2012-2013;负责人;
12 国家自然科学基金项目(51176111),新型凹陷涡发生器冷却结构内流动与传热的实验和数值计算研究,2012-2015,负责人;
11 国家自然科学基金仪器重点项目子项目负责人,可植入搏动式超声致动血泵流动计算与分析, 2011-2013;
10 国家自然科学基金项目(50806045),短小针肋-凹槽/凹陷复合强化传热结构中流动和传热机理的研究,2009-2011,负责人;
9 上海交通大学“SMC-晨星青年学者”资助项目,基于新型凹陷涡发生器阵列的燃气涡轮高效冷却技术研究,2013-2014,负责人;
8 高性能换热器翅片换热与流动优化设计计算,2012;
7 上海白玉兰科技人才基金项目,2010,负责人;
6 上海交通大学特色实验项目,2011-2012;负责人;
5 上海交大“晨星优秀青年教师人才-后备人才”项目,应用瞬态液晶热像技术研究透平叶片内部具有凹陷阵列结构的通道内对流冷却性能,2010-2011,负责人;
4 上海交通大学科研项目,高精度液晶热像温度测量技术研究,2007-2008,负责人;
3 上海交大机械与动力学院优秀青年教师科研启动基金,透平叶片内部复合冷却技术研究,2008-2010,负责人;
2 中船重工项目,高温冷却叶片数值模拟及试验研究,2008-2009,主要参加人;
1 合成气低排放燃烧室相关冷却技术研究, 上海市科委重大科技专题攻关项目,2009-2011,参加人。 -
代表性论文专著
2023
1. Yeranee, K., Rao, Y., Zhang, Y.L., Rotating Flow and Heat Transfer Characteristics of a Novel Cooling Channel for Gas Turbine Blade Trailing Edge with Diamond-Type TPMS Structures, ASME Journal of Heat and Mass Transfer, accepted, HT-23-1427, 2024.
2. Yeranee, K., Rao, Y., Xu, C., Zhang, Y.L., Su, X. Y., Turbulent Flow Heat Transfer and Thermal Stress Improvement of Gas Turbine Blade Trailing Edge Cooling with Diamond-Type TPMS Structure. Aerospace [J], 2023, 11(1):37.
3. H. Yu, J. Lou, H. Liu, Z. Chu, Q. Wang, L. Yang, Y. Rao, A transfer learning method to assimilate numerical data with experimental data for effusion cooling, Applied Thermal Engineering, 224, 2023.
4. K Hu, X Wang, S Zhong, C Lu, B Yu, L Yang, Y Rao. Optimization of turbine blade trailing edge cooling using self-organized geometries and multi-objective approaches[J]. Energy, Volume 289, 2024.
5. Fei Li, Chenglan Xiong, Yu Rao, Yong Luan, Bernhard, Weigand, Numerical Study on Heat Transfer and Pressure Loss Characteristics of Swirl Cooling in Elliptical Tubes with Tangential Jet Inlets, ASME Journal of Heat and Mass Transfer, 146(1): 013801, 2024.
6. Yuli Cheng, Yu Rao, Pengfei Su, Longbing Hu, Numerical analysis and experiments on heat transfer and flow structures in rotating three-pass serpentine channels with ribs, guide vanes and trailing bleed holes, International Journal of Thermal Sciences, 193, 108529, 2023.
7. Cheng, Y. L., Rao, Y., Xie, Y., Large Eddy Simulations and Experiments on Low-Reynolds-number Laminar Separation Control for Low-pressure Turbine Blades with Oblong-dimpled Surface, Aerospace Science and Technology, 108606, 2023. https://doi.org/10.1016/j.ast.2023.108606
8. Yeranee K, Rao Y. Heat Transfer and Pressure Loss of Turbulent Flow in a Wedge-Shaped Cooling Channel With Different Types of Triply Periodic Minimal Surfaces [J]. ASME Journal of Heat and Mass Transfer, 145(9): 1–52, 2023.
9. Rao, Y., Li, Y., Liu, Y. Y., Yang, L., Experimental and Numerical Studies on Enhanced Effusion Cooling with Shallowly Dimpled Film Holes on Double-Wall Structure Surface, International Journal of Heat and Fluid Flow, 101, 109135, 2023.
10. Yeranee, K., Rao, Y., Turbulent Flow and Heat Transfer Enhancement for Turbine Blade Trailing Edge Cooling with Gyroid-type Triply Periodic Minimal Surfaces, ASME Journal of Engineering for Gas Turbines and Power, 145, 071008, 2023.
11. Liu, Y. Y., Luan, Y., Dai, X., Liu, X., Yi, X., Rao, Y., A Numerical Study on Swirling Hot Air Anti-Icing with Various Surface Structures on the Internal Wall, Energies, 16, 1179, 2023.
12. Zhang, P., Xu, C., Rao, Y., Liang, C., Experimental and Numerical Study of Heat Transfer and Turbulent Flow in a Rotating channel with V Rib-Dimple Hybrid Structures, International Journal of Thermal Sciences, 187, 108162, 2023.
13. Yu H., Lou J. Liu H., Chu Z.W., Yang, L., Wang, Q., Rao, Y., A Transfer Learning Method to Assimilate Numerical Data with Experimental Data for Effusion Cooling, Applied Thermal Engineering, 120075, 2023.
14. Liu, Y.Y., Luan, Y., Dai, X., Liu, S., Yi, X., Rao, Y., A Numerical Study on Swirling Hot Air Anti-Icing with Various Surface Structures on the Internal Wall, Energies, 16, 1179, 2023.
15. Yeranee, K., Rao, Y., Triply Periodic Minimal Surfaces Thermal Hydraulic Effects, Topic Review, Encyclopedia, 39188, 2023. (https://encyclopedia.pub/entry/39188) 大百科全书
16. 胡军,饶宇*,张月亮. 波纹微通道换热器中超临界二氧化碳流动传热特性数值模拟. 工程热物理学报. 2023.
17. 李菲, 栾勇, 饶宇*, 程宇立. 涡轮叶片前缘强化旋流-气膜复合高效冷却研究. 工程热物理学报. 2023.
18. 胡凯斌,钟胜权,陆成,饶宇,杨力.基于自组织几何的楔形通道拓扑数据挖掘.中国工程热物理学会学术会议, 2023.
19. 张月亮,饶宇*,吕玥萱. 增材制造微通道换热器性能实验研究. 工程热物理年会. 成都. 2023.
20. Kaibin Hu, Cheng Lu, Bocheng Yu,Yu Rao,Li Yang, Heat transfer enhancement of wedge-shaped channels using bionic structures generated by the self-organization theory, Japan, IGTC2023, 120, 2023.
21. Y. Cheng, Y. Rao, and Y. Xie, Large Eddy Simulations for Laminar Separation Control on a Low-pressure Turbine Blade at Low Reynolds Numbers Using Oblong Dimples, Kyoto, Japan, IGTC2023, 38, 2023.
22. Yeranee Kirttayoth, Rao Yu, Xu Chao, and Chen Jianian. Rotating Effects on Flow and Heat Transfer Characteristics in a Wedge-Shaped Cooling Channel with Diamond Structure Based on Triply Periodic Minimal Surfaces. International Gas Turbine Congress [C]; Kyoto; 2023. p. 3–6.
23. Li, Y., Y. Rao,Liu, Y. Y., Yang, L.Numerical Investigation of a Novel Crescent-Dimpled Film Cooling Hole on Flat , Kyoto, Japan,IGTC2023, 45, 2023
2022
1. Zhang, P., Xu, C., Rao, Y., Liang, C., Experimental and Numerical Study of Heat Transfer and Turbulent Flow in a Rotating channel with V Rib-Dimple Hybrid Structures, International Journal of Thermal Sciences, 185, 108162, 2023.
2. Yu H., Lou J. Liu H., Chu Z.W., Yang, L., Wang, Q., Rao, Y., A Transfer Learning Method to Assimilate Numerical Data with Experimental Data for Effusion Cooling, Applied Thermal Engineering, 120075, 2023.
3. Liu, Y.Y., Luan, Y., Dai, X., Liu, S., Yi, X., Rao, Y., A Numerical Study on Swirling Hot Air Anti-Icing with Various Surface Structures on the Internal Wall, Energies, 16, 1179, 2023.
4. Yeranee, K., Rao, Y., Triply Periodic Minimal Surfaces Thermal Hydraulic Effects, Topic Review, Encyclopedia, 39188, 2023. (https://encyclopedia.pub/entry/39188) 大百科全书
5. Rao, Y., Surface Vortex Structures Featuring Miniature V Rib-Dimple Hybrids Create Highly Effective Heat Transfer & Cooling for Gas Turbine Blades, Advances in Engineering, 2022. (https://advanceseng.com/surface-vortex-structures-featuring-miniature-v-rib-dimple-hybrids-create-highly-effective-heat-transfer-cooling-gas-turbine-blades/) 科研成果被国际知名工程学网站”Advances in Engineering“评选为Mechanical Engineering领域关键性科学文章;全球著名科技媒体网站“工程进展”(Advances in Engineering,AIE)遴选为关键科学文章
6. Yeranee, K., Rao, Y., Heat Transfer and Pressure loss of Turbulent Flow in a Wedge-shaped Cooling Channel with Different Types of Triply Periodic Minimal Surfaces, ASME Journal of Heat Transfer, revised review, HT-22-1796, 2023.
7. Yong Luan, Yu Rao, Hongjie Yan, Experimental and numerical study of swirl impingement cooling for turbine blade leading edge with internal ridged wall and film extraction holes, International Journal of Heat and Mass Transfer, 201 (2023), 123633.
8. Yong Luan, Yu Rao, Chao Xu, Experimental and numerical study on an enhanced swirl cooling with convergent tube wall and local dimple arrangements, International Journal of Thermal Sciences, 185 (2023), 108083.
9. K. Yeranee, Y. Rao, A Review of Recent Investigations on Flow and Heat Transfer Enhancement in Cooling Channels Embedded with Triply Periodic Minimal Surfaces (TPMS), Energies, 15 (2022), 8994.
10. K. Yeranee, Y. Rao, L. Yang, H. Li, Improved Thermal Performance of a Serpentine Cooling Channel by Topology Optimization Infilled with Triply Periodic Minimal Surfaces, Energies, 15 (2022), 8924.
11. Li Yang, Qi Wang, Yu Rao, An Iterative Neural Operator to Predict the Thermo-Fluid Information in Internal Cooling Channels, Journal of Turbomachinery, 2022, 144(12):121005.
12. Kaibin Hu, Cheng Lu, Bocheng Yu, Li Yang*, Yu Rao, Optimization of bionic heat sinks with self-organized structures inspired by termite nest morphologies,International Journal of Heat and Mass Transfer,Volume 202,2023,123735
13. Yeranee, K., Rao, Y., Yang, L., Li, H., Enhanced thermal performance of a pin-fin cooling channel for gas turbine blade by density-based topology optimization, International Journal of Thermal Sciences, 107783, 2022.
14. Yin Xie, Yu Rao, Yuli Cheng, Wei Tian, Investigation into the laminar separation control of airfoils at low Reynolds numbers by dimple vortex generators, Aerospace Science and Technology, Volume 129, October 2022, 107841.
15. Xie, Y., Rao, Y., Zhang, P., Streamwise Evolution of Turbulent Flow and Heat Transfer over Channel Surfaces with V Ribs and V-Rib-Dimple Compound Turbulators, International Journal of Thermal Sciences, Volume 179, September 2022, 107672, 2022.
16. Zhang, P., Rao, Y., Ligrani, P., Experimental study of turbulent flow heat transfer and pressure loss over surfaces with dense micro-depth dimples under viscous sublayer, International Journal of Thermal Sciences, 177, 107581, 2022.
17. Luan, Y., Rao, Y., Weigand, B., Experimental and numerical study of heat transfer and pressure loss in a multi-convergent swirl tube with tangential jets, International Journal of Heat and Mass Transfer, 122797, 2022.
18. Liang, C., Rao, Y., Chen, J., Zhang, P., Experimental and Numerical Study of the Turbulent Flow and Heat Transfer in a Wedge-shaped Channel with Guiding Pin Fin Arrays under Rotating Conditions, ASME Journal of Turbomachinery, 144: 071007, 2022.
19. Luan, Y., Rao, Y., Wang, K., Wu, W., Experimental and numerical study of heat transfer and pressure loss in a swirl multi-pass channel with convergent jet slots, ASME Journal of Turbomachinery, 144: 071006, 2022.
20. Ran, S., Zhang, P., Rao, Y., Numerical study of heat transfer and flow structure over channel surfaces featuring miniature V rib-dimples with various configurations, International Journal of Thermal Sciences, 172, 107342, 2022.
21. 许超, 张鹏, 饶宇. 涡轮叶片内冷表面V肋-凹陷复合流动控制强化传热优化设计[J]. 推进技术. 2023. (已录用, EI)
22. 吕玥萱, 罗稼昊, 饶宇. 涡轮叶片不同肋倾角交错肋冷却流动与传热研究[J]. 工程热物理学报. 2022.(已录用,EI)
23. 吕玥萱, 肖克华, 饶宇. 增材制造高性能微通道换热器模块化单元传热与压损实验[J]. 工程热物理学报. 2022.(已录用,EI)
24. Xiong, C.L., Rao, Y., Luan, Y., 探究椭圆形旋流管型对旋流冷却流动与传热特性的影响, 工程热物理学报,已录用,2022.
25. 楼健,周炜玮,汪奇,杨力*,饶宇.小样本实验数据驱动的发散冷却深度学习模型[J].工程热物理学报, 2022
2021:
122. Zhang, P., Rao, Y. *, Xie, Y. (2021): Turbulent Flow Structure and Heat Transfer Mechanisms over Surface Vortex Structures of Micro V-Shaped Ribs and Dimples, International Journal of Heat and Mass Transfer, 178, 121611, 2021.
121. Liang, C, Rao Y. * (2021): Experimental and Numerical Study of Turbulent Flow and Heat Transfer in a Wedge-shaped Channel with Guiding Pin Fins for Turbine Blade Trailing Edge Cooling, International Journal of Heat and Mass Transfer, 178, 121590, 2021.
120. Zheng, K., Wei, T. *, Zhang, P., Rao, Y., Hu, H. (2021): Experimental study of the turbulent flow and heat transfer behaviors over a micro-rib-dimple-structured surface, ASME Journal of Turbomachinery. 143(10), 101014.
119. Guo, Z., Rao, Y. *, Wang, W. (2021): Experimental and Numerical Investigation of Turbulent Flow Heat Transfer in a Serpentine Channel with Multiple Short Ribbed Passes and Turning Vanes, International Journal of Thermal Sciences, 165, 106931.
118. Luo J., Rao, Y. *, Yang, L., Yang, M., Su, H. (2021): Computational analysis of turbulent flow and heat transfer in latticework cooling structures under various flow configurations, International Journal of Thermal Sciences, 164, 106912.
117. Liu, Y., Rao, Y. *, Yang, L., Xu, Y., Terzis, A. (2021): Flow and heat transfer characteristics of double-wall cooling with multi-row short film cooling hole arrangements, International Journal of Thermal Sciences, 165, 106878.
116. Wang, Q., Yang, L., Rao, Y. * (2021): Establishment of a generalizable model on a small-scale dataset to predict the surface pressure distribution of gas turbine blades, Energy, 214, 118878.
115. Yeranee, K., Rao, Y. * (2021): A review of recent studies on rotating internal cooling for gas turbine blades. Chinese Journal of Aeronautics, 34(7): 85-113.
2020:
114. Rao, Y. *, Zhang, P., Xu, Y., Ke, H. (2020): Experimental study and numerical analysis of heat transfer enhancement and turbulent flow over shallowly dimpled channel surfaces, International Journal of Heat and Mass Transfer, 160, 120195.
113. Liang, C., Rao, Y. * (2020): Computational analysis of rotating effects on heat transfer and pressure loss of turbulent flow in detached pin fin arrays with various clearances. ASME Journal of Heat Transfer, 142(12), 121803.
112. Xie, Y., Rao, Y. *, Li, W., Qin, J. (2020) Experiments and Stress-Blended Eddy Simulations of turbulent flow over edge-rounded dimples, International Journal of Thermal Sciences, 154, 106380
111. Rao, Y. *, Guo, Z., Wang, D. (2020): Experimental and Numerical Study of Heat Transfer and Turbulent Flow Characteristics in Three-short-pass Serpentine Cooling Channels with Miniature W-Ribs, ASME Journal of Heat Transfer. 142(12), 121901
110. Yang, L., Wang, Q., Rao, Y. *. (2020): Searching for irregular pin-fin shapes for high temperature applications using deep learning methods, International Journal of Thermal Sciences, 161, 106746,
109. Yang, L., Wang, Q., Huang, K., Rao, Y. * (2020): Establishment of a long-short-term-memory model to predict film cooling effectiveness under superposition conditions, International Journal of Heat and Mass Transfer, 160, 120231
108. Liang, C., Rao, Y. * (2020): Numerical study of turbulent flow and heat transfer in channels with detached pin fin arrays under stationary and rotating conditions. International Journal of Thermal Sciences, 160, 106659
107. Liu, Y., Rao, Y. *, Yang, L. (2020): Numerical simulations of a double-wall cooling with internal jet impingement and external hexagonal arrangement of film cooling holes, International Journal of Thermal Sciences. 153, 106337
106. 罗稼昊(Luo, J.),饶宇(Rao, Y. *),杨力(Yang, L.) (2021): 不同流动配置下涡轮叶片交错肋冷却流动传热特性数值模拟 [Numerical Simulations for Flow and Heat Transfer Characteristics in Different Latticework Cooling Configurations for Gas Turbine Blades],推进技术 [Journal of Propulsion Technology],(拟发表于2021年第9期). 42期
105. 阎鸿捷(Yan, H.), 陈冠江(Chen, G.), 饶宇(Rao, Y. *) (2020): 涡轮叶片前缘冲击-气膜冷却流动传热实验 [Experiment on Flow and Heat Transfer of Impingement-film Cooling for Leading Edge of Turbine Blade]. 工程热物理学报 [Journal of Engineering Thermophysics], 41(12), 2970-2976
104. 阎鸿捷(Yan, H.), 陈冠江(Chen, G.), 饶宇(Rao, Y. *) (2021): 涡轮叶片前缘旋流-气膜复合冷却内部流动传热特征实验和数值模拟 [Experiment and Numerical Simulation on Internal Flow and Heat Transfer of Swirling Flow-Film Cooling for Leading Edge of Turbine Blade]. 推进技术 [Journal of Propulsion Technology], 42(3)
103. 郭仲秋(Guo, Z.), 李彦霖(Li, Y.), 饶宇(Rao, Y. *) (2020): 涡轮叶片内部具有扰流肋和导流片的多通道冷却流动与传热特性 [Flow and Heat Transfer Characteristics in Multi-pass Channel Cooling Structure With Ribs and Turning Vanes of Turbine Blades]. 工程热物理学报 [Journal of Engineering Thermophysics], 41(9): 2225-2232
102. 戴维(Dai, W.), 杨力(Yang, L.), 饶宇(Rao, Y. *) (2020): 基于生成对抗网络的涡轮端壁气膜冷却建模方法[Modeling Method of Film Cooling of Turbine Endwall Based on Generative Adversarial Networks].工程热物理学报 [Journal of Engineering Thermophysics],41(10):2420-2424, 2020.
101. 王锴 (Wang, K.),夏添(Xia, T.),饶宇(Rao, Y. *) (2020): 三通道旋流冷却流动与传热性能 [Flow Characteristics and Heat Transfer of Swirl Cooling in Three-pass Channel],上海交通大学学报 [Journal of Shanghai Jiaotong University], 54,(5): 481-490
100. Rao, Y. *, Zhang, P. (2020): Experimental Study of Heat Transfer and Pressure Loss in Channels with Miniature V Rib-Dimple Hybrid Structure, Heat Transfer Engineering, 41(15-16): 1431-1441
99. 汪奇, 杨力,饶宇. 深度学习方法在涡轮冷却中的应用综述, 中国工程热物理学会热机气动热力学会议, 202442, 2020.
98. 刘宇阳,饶宇,具有短气膜孔阵列的双层壁冷却实验与数值计算研究,中国工程热物理学会热机气动热力学会,202097,2020
97. Li Yang, Qi Wang, Yu Rao, Modeling Superposition of Flat Plate Film Cooling under Complicated Conditions Using Recurrent Neural Networks, Proceedings of the ASME Turbo Expo 2020: Turbomachinery Technical Conference and Exposition. GT2020-3189.
2019:
96. Zhang, P., Rao, Y. *, Li, Y., Weigand, B. (2019): Heat Transfer and Turbulent Flow Structure in Channels With Miniature V-Shaped Rib-Dimple Hybrid Structures on One Wall, ASME Journal of Heat Transfer, 141, 071903
95. Chen, G., Liu, Y., Rao, Y. *, He, J., Qu, Y. (2019): Numerical investigation on conjugate heat transfer of impingement/effusion double-wall cooling with different crossflow schemes, Applied Thermal Engineering, 155, 515–524
94. Yang, L., Min, Z., Yue, T., Rao, Y.*, Chyu, M.K. (2019): High resolution cooling effectiveness reconstruction of transpiration cooling using convolution modeling method. International Journal of Heat and Mass Transfer, 133, 1134-1144.
93. Li, Y., Rao, Y.*, Wang, D., Wu, X. (2019), Heat transfer and pressure loss of turbulent flow in channels with miniature structured ribs on one wall. International Journal of Heat and Mass Transfer, 131, 584-593.
92. Liu, Y., Rao, Y.*, Weigand, B. (2019): Heat transfer and pressure loss characteristics in a swirl cooling tube with dimples on the tube inner surface. International Journal of Heat and Mass Transfer, 128, 54-65.
91. Yaranee K., Wae-hayee, M. *, Piya, I., Rao, Y., Nuntadusit, C. (2019): Effects of expansion pipe length on heat transfer enhancement of impinging jet array, Journal of Mechanical Science and Technology, 33, 2429-2438
90. 饶宇(Rao, Y.*), 王德强 (Wang, D.), 李彦霖(Li Y.) (2019): 涡轮叶片内部多通道微小扰流肋冷却流动传热实验研究[Study of Heat Transfer and Pressure Loss in Multi-pass Cooling Passages With Micro-ribs for Turbine Blade]. 工程热物理学报 [Journal of Engineering Thermophysics], 40(10):2321-2326.
89. Wae-hayee, M. *, Yeranee, K., Piya, I., Rao, Y., Nuntadusit, C. (2019): Heat transfer correlation of impinging jet array from pipe nozzle under fully developed flow, Applied Thermal Engineering, 154, 37–45
88. Y.Y. Liu, Y. Rao, L. Yang. Flow and Heat Transfer Characteristics of a Double-Wall Cooling System with a Hexagonal Film Hole Arrangement[C]. International Gas Turbine Congress, Tokyo, Japan, 2019. IGTC2019-11
87. Yin Xie, Yu Rao. Numerical Study of Heat Transfer Enhancement of the Channel with Optimized V-Shaped Ribs and Dimples[C]. International Gas Turbine Congress, Tokyo, Japan, 2019. IGTC2019-17
86. Ce Liang, Yu Rao. A Numerical Study of the Flow and Heat Transfer in Channels with the Detached Pin Fin Arrays[C]. International Gas Turbine Congress, Tokyo, Japan, 2019. IGTC2019-20
85. Bi J, Zhang P, Rao Y. A Numerical Simulation of Rotating Channel with a V Rib-Dimple Hybrid Structure[C]. Proceedings of Global Power and Propulsion Society, Beijing, China, 2019. GPPS-0031
84. Yang, L.*, Rao, Y. (2019): Predicting the adiabatic effectiveness of effusion cooling by the convolution modeling method, Proceedings of ASME Turbo Expo at Phoenix, U.S.A, June 2019, GT2019-90162, accepted. (publisher's declaration of acceptance enclosed)
83. 冉霜叶, 张鹏, 饶宇. 微小V肋-凹陷复合冷却流动与传热数值模拟:肋高与凹陷深度的影响[C]. 中国工程热物理学会热机气动热力学和流体机械学术会议, 中国北京, 2019.
82. 阎鸿捷, 陈冠江, 饶宇. 涡轮叶片前缘冲击-气膜冷却流动传热实验[C]. 中国工程热物理学会热机气动热力学和流体机械学术会议, 中国北京, 2019.
81. 戴维, 杨力, 饶宇. 基于生成对抗网络的涡轮端壁气膜冷却建模方法[C]. 中国工程热物理学会热机气动热力学和流体机械学术会议, 中国北京, 2019
2018:
80. Rao, Y. *, Liu, Y., Wan, C. (2018): Multiple-jet impingement heat transfer in double-wall cooling structures with pin fins and effusion holes. International Journal of Thermal Sciences, 133, 106-119.
79. Rao, Y.* (2018): Jet impingement heat transfer in narrow channels with different pin fin configurations on target surfaces. ASME Journal of Heat Transfer, 140, 072201.
78. Biegger, C.*, Rao, Y., Weigand, B. (2018): Flow and heat transfer measurements in swirl tubes with one and multiple tangential inlet jets for internal gas turbine blade cooling. International Journal of Heat and Fluid Flow, 73, 174-187.
77. 饶宇(Rao, Y.*), 刘宇阳(Liu, Y.), 万超一(Wan, C.) (2018): 具有气膜出流孔和针肋的双层壁冷却结构内冲击传热性能研究 [Jet impingement heat transfer in a double-wall cooling structure with pin fins and film effusion holes]. 航空学报 [Acta Aeronautica et Astronautica Sinica], 39, 121418.
76. 夏添(Xia, T.), 刘宇阳(Liu, Y.), 饶宇(Rao, Y.*), 陈冠江(Chen, G.) (2018): 具有微小针肋阵列靶板表面冲击传热性能研究 [A study of jet impingement heat transfer performance on roughened target surface with miniature pin fins]. 工程热物理学报 [Journal of Engineering Thermophysics], 39, 1-9.
75. 李彦霖(Li, Y.), 饶宇(Rao, Y.*), 王德强(Wang, D.) (2018): 涡轮叶片冷却通道高性能微小肋湍流传热的实验与数值研究 [Experimental and numerical study on heat transfer and friction of micro-ribs in turbine blade internal passage]. 工程热物理学报 [Journal of Engineering Thermophysics], 39:55-61.
74. Wei Tian; Kuan Zheng; Yu Rao; Peng Zhang; Hui Hu; An experimental study on the flow characteristics over a micro rib-dimple structured surface, 5th International Conference on Experimental Fluid Mechanics, Munich, Germany, 2018.
73. Zhang, P., Rao, Y.*, Li, Y. (2018): A numerical study of heat transfer and flow structure in channels with miniature v rib-dimple hybrid structure on one wall. Proceedings of ASME Turbo Expo at Oslo, Norway, June 2018, GT2018-75929.
72. Liu, Y., Xia, T., Rao, Y.*, Weigand, B. (2018): Numerical analysis of thermal performance of a swirl cooling tube with dimples at the wall. Proceedings of International Heat Transfer Conference at Beijing, China, August 2018, IHTC16-22829.
71. Chen, G., Liu, Y., Rao, Y.* (2018): A Numerical investigation on internal heat transfer in jet impingement/effusion cooling in a narrow channel. Proceedings of International Heat Transfer Conference at Beijing, China, August 2018, IHTC16-21397.
70. Liang, C., Rao, Y.* (2018): 旋转条件下叶片尾缘分离式针肋冷却通道流动与传热特性数值研究 [A numerical study of flow and heat transfer performance in detached pin fin channels for turbine blade trailing edge cooling under rotation]. 中国工程热物理学会气动热力学会议 [[Proceedings of Chinese National Conference on Aero-thermodynamics in Xi’an, China, October 2018], 2018178.
69. Rao, Y.*, Wang, D.Q., Li, Y.L. (2018): 涡轮叶片内部多通道微小扰流肋冷却流动与传热实验研究 [Experimental study of flow and heat transfer in multi-pass internal cooling passages with miniature rib turbulators for turbine blades]. 中国工程热物理学会气动热力学会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Xi’an, China, October 2018], 2018198.
2017:
68. Rao, Y.*, Biegger, C., Weigand, B. (2017): Heat transfer and pressure loss in swirl tubes with one and multiple tangential jets pertinent to gas turbine internal cooling. International Journal of Heat and Mass Transfer, 106, 1356–1367.
67. Feng, Y., Cao, J., Qin, J.*, Rao, Y. (2017): Flow and heat transfer characteristics of supercritical hydrocarbon fuel in minichannels with dimples. ASME Journal of Heat Transfer, 139, 122401.
66. 李文灿(Li, W.), 饶宇(Rao, Y.*), 李博(Li, B.), 秦江(Qin, J.) (2017): 具有边缘倒圆凹陷涡发生器换热性能实验 [Experimental of turbulent flow heat transfer of dimple vortex generators with rounded edge]. 航空学报 [Acta Aeronautica et Astronautica Sinica], 38, 520999.
65. 王德强(Wang, D.), 饶宇(Rao, Y.*), 张鹏(Zhang, P.), 许亚敏(Xu, Y.) (2017): 涡轮叶片内冷通道高性能肋湍流传热与流阻实验研究 [Experimental study of flow and heat transfer of high-performance ribs for internal cooling of gas turbine blades]. 工程热物理学报 [Journal of Engineering Thermophysics], 39, 1-7.
64. 陈鹏(Chen, P.), 饶宇(Rao, Y.*), 万超一(Wan, C.Y.) (2017): 具有微小W肋的结构化表面冲击冷却实验研究 [Impingement heat transfer and flow characteristics on the surface with micro W-shaped ribs]. 航空动力学报 [Journal of Aerospace Power], 32, 2110-2117.
63. 杨云(Yang, Y.), 张鹏(Zhang, P.), 饶宇(Rao, Y.*) (2017): 凹陷涡发生器非稳态流动与传热分离涡模拟 [A DES of unsteady flow and heat transfer in dimple vortex generators]. 工程热物理学报 [Journal of Engineering Thermophysics], 38, 1196-1202.
62. Rao, Y.*, Liu, Y. (2017): Experimental investigation of heat transfer characteristics in jet impingement cooling system with pin fins and film cooling holes, Proceedings of Global Power and Propulsion Forum in Shanghai, China, October 2017], GPPS-2017-30.
61. Rao, Y.*, Zhang, P. (2017): Experimental study of heat transfer and pressure loss in channels with miniature v rib-dimple hybrid structure. Proceedings of 13th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Portoroz, Slovenia, July 2017, HEFAT2017-1570345913.
60. Xia, T., Liu, Y., Rao, Y.*, Chen, G.J. (2017): 具有微小针肋阵列靶板表面冲击传热性能研究 [A study of jet impingement heat transfer on surfaces with miniature pin fins]. 中国工程热物理学会气动热力学会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Zhenjiang, China, October 2017], 20172147.
59. Zhang, P., Rao, Y.* (2017): 凹陷与微小V肋复合结构冷却通道内传热与流动结构数值计算研究 [Numerical study of heat transfer and flow structure in cooling channels with dimples and miniature V rib-dimple hybrid structure], 中国工程热物理学会气动热力学会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Zhenjiang, China, October 2017], 20172148.
58. Li, Y.L., Rao, Y.*, Wang, D.Q. (2017): 涡轮叶片冷却通道高性能微小肋湍流传热的数值研究 [Numerical study on heat transfer and friction of micro-ribs in turbine blade internal passage]. 中国工程热物理学会传热传质会议 [Proceedings of Chinese National Conference on Heat and Mass Transfer in Suzhou, China, October 2017], 173118.
2016:
57. Rao, Y.*, Chen, P., Wan, C.Y. (2016): Experimental and numerical investigation of impingement heat transfer on the surfaces with micro W-shaped ribs. International Journal of Heat and Mass Transfer, 93, 683-694.
56. 饶宇(Rao, Y.*), 万超一(Wan, C.Y.), 陈鹏(Chen, P.) (2016): 具有针肋的狭窄空间冲击冷却实验和数值计算 [Experimental and numerical study of jet impingement cooling in narrow channels with pin fins]. 航空动力学报 [Journal of Aerospace Power], 31, 1852-1859.
55. 万超一(Wan, C.Y.), 饶宇(Rao, Y.*), 陈鹏(Chen, P.) (2016): 狭窄通道具有针肋的表面冲击冷却实验研究 [Experimental study of jet impingement heat transfer on the surface with pin fins in narrow channels]. 工程热物理学报 [Journal of Engineering Thermophysics], 37, 2000-2006.
54. 邢建峰 (Xing, J.), 饶宇(Rao, Y.*), 李博(Li, B.) (2016): 具有微小V肋-凹陷复合结构表面湍流传热实验研究 [Experimental study of turbulent flow heat transfer over the surface with miniature V rib-dimple hybrid structures]. 上海交通大学学报 [Journal of Shanghai Jiao Tong University], 51, 40-48.
53. 杨云(Yang, Y.), 饶宇(Rao, Y.*) (2016): 不同深度凹陷涡发生器内湍流流动与传热性能的数值计算研究 [A numerical study of turbulent flow and heat transfer in dimples with different depths]. 上海交通大学学报 [Journal of Shanghai Jiao Tong University], 51, 18-25.
52. Zhou, W., Rao, Y.*, Hu, H. (2016): An experimental investigation on the characteristics of turbulent boundary layer flows over a dimpled surface. ASME Journal of Fluids Engineering, 138, 021204.
51. Rao, Y.*, Wan, C., Liu, Y. (2016): An experimental investigation of impingement heat transfer in narrow space with full-height pin fins. Proceedings of ASME Turbo Expo in Seoul, Korea, June 2016, GT2016-57578.
50. Yang, Y., Zhang, P., Rao, Y.*, Li, W.C. (2016): 凹陷涡发生器非稳态传热机理及流动特性研究 [Study of unsteady flow and heat transfer characteristics in dimple vortex generators]. 中国工程热物理学会气动热力学会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Wuxi, China, October 2016], 162111.
49. Wang, D.Q., Rao, Y.*, Zhang, P., Xing, J. (2016): 高性能肋的传热与流动性能实验和数值计算研究 [Experimental and numerical study of flow and heat transfer performance in channels with high-performance ribs]. 中国工程热物理学会气动热力学会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Wuxi, China, October 2016], 162010.
48. Li, W.C., Yang, Y., Rao, Y.* (2016): 凹陷表面湍流流动与传热性能数值计算 [Numerical simulations of turbulent flow and heat transfer over dimpled surface]. 中国工程热物理学会传热传质会议 [Proceedings of Chinese National Conference on Aero-thermodynamics in Beijing, China, October 2016], 163057.
47. Rao, Y.*, Yang, Y., Li, W.C. (2016): 不同深度凹陷涡发生器内湍流传热与流阻性能 Turbulent flow heat transfer and pressure loss of dimple vortex generators with various depths. 中国航天第三网第三十七届技术交流会 [37th Symposium of Chinese Aerospace Technology in Xi’an, China, October 2016], 243.
2015:
46. Rao, Y.*, Feng, Y., Li, B., Weigand, B. (2015): Experimental and numerical study of heat transfer and flow friction in channels with dimples of different shapes. ASME Journal of Heat Transfer, 137, 031901.
45. Wan, C.Y., Rao, Y.*, Chen, P. (2015): Numerical predictions of jet impingement heat transfer on square pin-fin roughened plates. Applied Thermal Engineering, 80, 301-309.
44. 饶宇(Rao, Y.*), 李博(Li, B.), 冯岩(Feng, Y.) (2015): 球形和泪滴形凹陷涡发生器传热实验和数值计算 [Experimental and numerical study of heat transfer performance of spherical and teardrop-shaped dimple vortex generators], 工程热物理学报 [Journal of Engineering Thermophysics], 36, 1774-1779.
43. 李博(Li, B.), 饶宇(Rao, Y.*), 陈鹏(Chen, P.) (2015): 应用瞬态液晶热像研究凹陷涡发生器传热性能 [Study of heat transfer characteristics of dimple vortex generators using transient liquid crystal thermography]. 工程热物理学报 [Journal of Engineering Thermophysics], 36, 2356-2360.
42. 冯岩(Feng, Y.), 饶宇(Rao, Y.*), 李博(Li, B.) (2015): 凹陷涡发生器形状对湍流流动与传热性能的影响 [Influences of dimple shapes on turbulent flow and heat transfer], 上海交通大学学报 [Journal of Shanghai Jiao Tong University], 49, 614-619.
41. Rao, Y.*, Wan, C.Y., Chen, P. (2015): 具有针肋扰流的狭窄空间冲击冷却实验研究 [Experimental study of jet impingement cooling in narrow space with pin fins]. 中国航空学会十八届燃烧与传热传质交流会 [Proceedings of 18th symposium of combustion and heat transfer of Chinese aerospace society in Nanjing, China, November 2015], 102.
40. Wan, C.Y., Chen, P., Rao, Y.* (2015): 具有针肋扰流的狭窄空间冲击冷却数值计算研究 [Numerical study of jet impingement cooling in narrow space with pin fins]. 中国工程热物理学会传热传质年会 [Proceedings of Chinese National Conference on Heat and Mass Transfer in Qingdao, China, October 2015], 153576.
39. Rao, Y.*, Chen, P., Zhu, J.Q. (2015): An experimental study of impingement heat transfer on the surfaces with micro V ribs. Proceedings of ASME Turbo Expo in Montreal, Canada, June 2015, GT2015-42573.
2014:
38. Rao, Y.*, Li, B., Feng, Y. (2014): Heat Transfer of Turbulent Flow over Surfaces with Spherical Dimples and Teardrop Dimples. Experimental Thermal and Fluid Science, 61, 201-209.
37. Rao, Y.*, Zang, S. (2014): Flow and heat transfer characteristics in latticework cooling channels with dimple vortex generators. ASME Journal of Turbomachinery, 136, 021017.
36. 饶宇(Rao, Y.*), 李麟(Li, L.) (2014): 具有柱肋阵列与分离式柱肋阵列的冷却通道内流动与传热性能实验研究 [Experimental study of pressure loss and heat transfer performance in channels with pin fins and detached pin fins]. 上海交通大学学报 [Journal of Shanghai Jiao Tong University], 48, 782-787.
35. 李麟(Li, L.), 饶宇(Rao, Y.*), 万超一(Wan, C.) (2014): 狭缝宽度对分离式柱肋冷却通道内传热与流动影响的数值计算研究 [Numerical study of effects of slot spacing on heat transfer and flow in cooling channels with detached pin fins]. 上海交通大学学报 [Journal of Shanghai Jiao Tong University], 48, 756-760.
34. Zhou, W., Rao, Y.*, Hu, H. (2014): An experimental investigation on the flow characteristics over dimple arrays pertinent to internal cooling of turbine blades. Proceedings of ASME Joint US-European Fluids Engineering Division Summer Meeting in Chicago, USA, August 2014, FEDSM2014-21268.
2013:
33. 张翔(Zhang, X.), 饶宇(Rao, Y.*) (2013): 具有凹陷涡发生器的网格冷却结构内流动与传热特性研究 [Study of flow and Heat transfer in latticework cooling with dimples]. 航空动力学报 [Journal of Aerospace Power], 28, 1503-1509.
32. 许亚敏(Xu, Y.), 饶宇(Rao, Y.*) (2013): 液晶热像测量精度分析及其在湍流传热研究中的应用 [Measurement accuracy and application of liquid crystal thermography technique in turbulent flow heat transfer study].上海交通大学学报 [Journal of Shanghai Jiao Tong University], 47, 1185-1190.
31. Rao, Y.*, Zhang, X., Zang, S. (2013): Flow and heat transfer characteristics in latticework cooling channels with dimple vortex generators. Proceedings of ASME Turbo Expo 2013 in San Antonio, USA, June 2013, GT2013-95237.
30. Wan, C., Rao, Y.* (2013): Numerical investigation of impingement heat transfer on a flat and square pin-fin roughened plates. Proceedings of ASME Turbo Expo in San Antonio, USA, June 2013, GT2013-94473.
29. Rao, Y.*, Xu, Y. (2013): An analysis of liquid crystal thermography measurement uncertainty and its application to turbulent heat transfer measurements. Proceedings of ASME Fluids Summer Meeting in Incline Village, USA, July 2013, FEDSM2013-16420.
2012:
28. Rao, Y.*, Wan, C., Xu, Y. (2012): An experimental study of pressure loss and heat transfer in the pin fin-dimple channels with various dimple depths. International Journal of Heat and Mass Transfer, 55, 6723-6733.
27. Rao, Y.*, Wan, C., Zang, S. (2012): An experimental and numerical study of the flow and heat transfer in channels with pin fin-dimple combined arrays of different configurations. ASME Journal of Heat Transfer, 134, 121901, 2012.
26. Rao, Y.*, Xu, Y., Wan, C. (2012): An experimental and numerical study of flow and heat transfer in channels with pin fin-dimple and pin fin arrays. Experimental Thermal and Fluid Science, 38, 237-247.
25. Rao, Y.*, Xu, Y., Wan, C. (2012): A numerical study of the flow and heat transfer in the pin fin-dimple channels with various dimple depths. ASME Journal of Heat Transfer, 134, 071902.
24. Rao, Y.*, Xu, Y. (2012), Liquid Crystal Thermography Measurement Uncertainty Analysis and Its Application to Turbulent Heat Transfer Measurements. Advances in Condensed Matter Physics, 2012, 898104.
23. 万超一(Wan, C.), 饶宇(Rao, Y.*), 许亚敏(Xu, Y.) (2012): 缝槽入口形状对气膜冷却性能的影响 [A numerical study of the effects of the slot geometry on the film cooling performance]. 上海交通大学学报 [Journal of Shanghai Jiaotong University], 46, 550-555.
22. Rao, Y.*, Zhang, X. (2012): Pressure loss and heat Transfer in channels with pin fin-dimple combined arrays for gas turbine cooling application. Proceedings of Asian Congress on Gas Turbines in Shanghai, China, August 2012, ACGT2012-4095.
2011:
21. Rao, Y.*, Wan, C., Xu, Y., Zang, S. (2011): Spatially-resolved heat transfer characteristics in channels with pin fin and pin fin-dimple arrays. International Journal of Thermal Sciences, 50, 2277-2289.
20. Rao, Y.*, Wan, C., Xu, Y., Zang, S. (2011): Local heat transfer characteristics in channels with pin fin and pin fin-dimple arrays, Proceedings of ASME Turbo Expo in Vancouver, Canada, June 2011, GT2011-45449.
2010:
19. Rao, Y.*, Zang, S. (2010): Calibrations and the measurement uncertainty of wide-band liquid crystal thermography. Measurement Science and Technology, 21, 015105.
18. Rao, Y.*, Zang, S., Wan, C. (2010): Effect of coating thickness on the calibration and measurement uncertainty of a wide-band liquid crystal thermography. Chinese Optics Letters, 8, 395-397.
17. Rao, Y.*, Wan, C., Zang, S. (2010): Comparisons of flow friction and heat transfer performance in rectangular channels with pin fin-dimple, pin fin and dimple arrays. Proceedings of ASME Turbo Expo in Glasgow, U.K., June 2010, GT2010-22442.
2009:
16. Rao, Y.*, Wan, C., Zang, S. (2009): Transitional Flow and heat transfer Characteristics in a rectangular duct with stagger-arrayed short pin fins. Chinese Journal of Aeronautics, 22, 237-242.
15. Rao, Y.*, Zang, S., Huang, M. (2009): A Liquid Crystal Thermography Calibration with True Color Image Processing. Chinese Optics Letters, 7, 723-725.
14. Rao, Y.*, Wan, C., Zang, S. (2009): An experimental study of transitional flow friction and heat transfer performance of a channel with staggered arrays of mini-scale short pin fins. Proceedings of ASME Turbo Expo in Orlando, U.S.A., June 2009, GT2009-59341.
13. Rao, Y.*, Wan, C., Zang, S. (2009): 针肋-凹陷复合结构通道内流阻和对流传热性能实验研究 [An experimental study on the flow friction and heat transfer in channels with pin fin-dimple combined arrays]. 中国工程热物理学会传热传质年会 [Proceedings of Chinese National Conference on Heat and Mass Transfer in Qingdao], China, October 2009, 093393.
12. Wan, C., Rao, Y.*, Zang, S. (2009): 针肋-凹陷复合通道流动和传热性能的数值模拟:凹陷深度的影响 [A numerical simulation on the flow and heat transfer in in channels with pin fin-dimple combined arrays]. 中国工程热物理学会传热传质年会 [Proceedings of Chinese National Conference on Heat and Mass Transfer in Qingdao], China, October 2009, 093533.
2007:
11. Rao, Y., Dammel, F., Stephan, P.*, Lin, G. (2007): Convective heat transfer characteristics of microencapsulated phase change material suspension in minichannels. Heat and Mass Transfer, 44, 175-186.
10. Rao, Y.*, Lin, G., Luo, Y. (2007): Preparation and thermal properties of microencapsulated phase change material for enhancing fluid flow heat transfer. Heat Transfer-Asian Research, 36, 28-37.
9. Rao, Y.*, Dammel, F., Stephan, P., Lin, G. (2007): Flow frictional characteristics of MEPCM suspensions flowing through rectangular minichannels. Science in China Series E: Technological Sciences, 49, 445-456.
8. Rao, Y.*, Dammel, F., Stephan, P. (2007): Experiments on the cooling performance of microencapsulated phase change material suspension flow in rectangular minichannels. Proceedings of ASME-JSME Thermal Engineering Summer Heat Transfer Conference in Vancouver, Canada, June 2007, HT07-32116.
7. Rao, Y.*, Dammel, F., Stephan, P. (2007): Experiments on microencapsulated phase change material suspension flow in rectangular minichannels. Proceedings of ASME-JSME Thermal Engineering Summer Heat Transfer Conference in Vancouver, Canada, June 2007, HT07-32114.
2006:
6. 饶宇(Rao, Y.*), Dammel, F., Stephan, P., 林贵平(Lin, G.) (2006): 相变材料微胶囊悬浮液在矩形小通道内层流流动传热的实验研究 [An experimental study of the flow heat transfer of microencapsulated phase change material suspension through rectangular minichannels]. 航空动力学报 [Journal of Aerospace Power], 21, 1012-1020.
2005:
5. 饶宇(Rao, Y.*), 林贵平(Lin, G.), 罗燕(Luo, Y.) 王亮(Wang, L.) (2005): 应用于强化传热的相变材料微胶囊的制备及特性 [Preparation processes and thermal properties of microencapsulated phase change material for the fluid flow heat transfer enhancement application]. 航空动力学报 [Journal of Aerospace Power], 20, 651-655.
4. Dammel, F., Rao, Y., Stephan, P.* (2005): Waermeuebertragung auf durch Minikanaele stroemende Suspension mit mikrogekapseltem Phasen-Wechsel-Material. Proceedings of VDI-FA-Sitzungen “Waerme- und Stoffuebertragung” und “Computational Fluid Dynamics” in Jena, Germany, June 2005.
3. Rao, Y.*, Dammel, F., Stephan, P., Lin, G. (2005): Flow frictional characteristics of MEPCM suspension flowing through rectangular minichannels. Proceedings of the 5th International Symposium on Multiphase Flow, Heat and Mass Transfer and Energy Conversion in Xi’an, China, July 2005, No.119.
2003:
2. Rao, Y. *, Lin, G. (2003): Numerical simulation on phase-change heat transfer within microencapsulated phase change material. Proceedings of the ASME Summer Heat Transfer Conference in Las Vegas, U.S.A., June 2003, HT2003-47023.
2000:
1. 梁家惠(Liang, J.H. *), 王成云(Wang, C.Y.), 饶宇(Rao, Y.) (2000): 声源定位实验-一个具有明确应用背景和前沿技术特点的综合性实验 [Experiments on positioning acoustic emission location-one comprehensive experiment with clear application backgrounds]. 物理实验 [Physical Experiments], 20, 5-7.
-
教学工作
[教学]
1 计算流体力学(研究生,全英文),48学时,3学分;
2 工程流体力学(本科生,全英语授课),51学时,3学分;
3 热动动力工程基础,54学时,3学分;
[学生培养]
15 谢胤,博士研究生,上海交通大学优秀毕业研究生,2023;
14 刘宇阳,博士研究生,上海交通大学优秀毕业研究生,2022;
13 许超,硕士研究生,上海交通大学hga010网页登录 优秀硕士学位论文奖,2023;
12 肖克华,硕士研究生,获上海市优秀毕业生,上海市教育委员会,2022;
11 郭仲秋,硕士研究生,获上海市优秀毕业生,优秀学生干部,上海市教育委员会,2021;
10 王凯,硕士研究生,获上海市优秀毕业研究生,上海市教育委员会,2020;
9 李彦霖,硕士研究生,获上海市优秀毕业研究生,上海市教育委员会,2019;
8 王德强,硕士研究生,上海交通大学hga010网页登录 优秀硕士学位论文奖,2018;
7 李文灿,硕士研究生,获上海市优秀毕业生,上海市教育委员会,2017;
6 文宇同,王力为,获上海交通大学hga010网页登录本科生荣誉学位毕业生,2017;
5 陈鹏,硕士研究生,获上海市优秀毕业生,上海市教育委员会,2016;
4 杨云,硕士研究生,获上海交通大学优秀毕业生,2016;
3 刘腾,本科生,获上海交通大学优秀毕业生,2016;
2 苏康宁等,本科生,全国大学生节能减排科技竞赛二等奖项,2013;
1 董斌,获上海交通大学优异学士论文(Top 1%),2012;
指导多项国家和校级大学生创新计划项目。 -
软件版权登记及专利
19 美国发明专利第一发明人,Turbine blade with improved swirl cooling performance at leading edge and engine, US18304387, 美国发明专利,授权,2024.
18 美国发明专利第一发明人,Structure for improving aerodynamic efficiency of low-pressure turbine blade and working method thereof, 美国发明专利,US11608745B2, 授权,2023.
17 美国发明专利第一发明人,Cooling Structure and method of trailing edge cutback of turbine blade, and turbine blade, 美国发明专利,US11401820B1, 授权,2022.
16 美国发明专利第一发明人,Cooling device with small structured rib-dimple hybrid structures, 美国发明专利,US10584595B2, 授权,2017.
15 国家发明专利第一发明人,增材制造的涡轮叶片近壁面冷却结构及其加工方法,ZL202210757945.2,授权,2023.
14 国家发明专利第一发明人,用于提高低压涡轮叶片气动效率的结构及其工作方法,ZL2021112039322,授权,2022;
13 国家发明专利第一发明人,带有表面凹陷的气膜冷却结构及涡轮叶片、涡轮机,ZL202110229847.7, 授权,2022;
12 国家发明专利第一发明人,一种带有旋流的涡轮叶片多通道冷却结构和装置,中国发明专利:ZL201810791418.7,授权,2021;
11 国家发明专利第一发明人,适用于涡轮叶片的尾缘劈缝冷却结构及方法、涡轮叶片,中国发明专利:ZL202110149654.0,授权,2021;
10 国家发明专利第一发明人,涡轮叶片尾缘针肋冷却结构及冷却方法、涡轮叶片,授权中国发明专利ZL202011288789.7,授权,2020;
9 国家发明专利第一发明人,一种带有凹陷的隔板和涡轮叶片内部冷却通道,中国发明专利ZL20171 1433488.7,授权,2017;
8 国家发明专利第一发明人,一种高性能散热器及其翅片布置方法, 201710057035.2, 2017.
7 国家发明专利第一发明人,一种用于换热器的高性能换热片及其换热器, 201710471683.2, 授权,2017.
6 国家发明专利第一发明人,具有微小斜肋-凹陷复合结构的冷却装置,授权专利号:201410138196.0,授权,2016.
5 国家发明专利第一发明人,燃气轮机涡轮叶片分离式柱肋冷却结构,授权专利号:ZL201210550529.1,授权,2015.
4 国家发明专利第一发明人,一种高性能冲击冷却系统,授权专利号:ZL201410856711.9,授权,2015.
3 国家发明专利第一发明人,涡轮叶片内部针肋凹陷复合冷却结构,公开号:CN101581235, 2009
2 国家发明专利第一发明人,热沉的针肋-凹陷复合阵列结构及针肋-凹陷复合阵列的布置方法,申请号:201310531065.4,2013。
1 PCT国际发明专利第一发明人,具有微小斜肋-凹陷复合结构的冷却装置,国际申请号:PCT/CN2014/089969.
////////////////////////////////////////////////////////////////////////////////////////
4 饶宇,陈佳年,基于Python的燃气轮机透平叶片内部冷却传热设计软件,2023SR1078916,2023.
3 饶宇,刘宇阳,基于MATLAB的红外热像传热实验数据处理软件V1.0,2021SR1699533,2021。
2. 饶宇; 阎鸿捷; 基于Python语言的瞬态液晶热像传热测量数据处理软件, 2020SR0765356, 原始取得, 全部权利, 2019-12, 软件著作权.
1. 饶宇,李博,万超一,基于Matlab语言的瞬态液晶热像传热测试软件,2015SR264818, 2015/12/17. 软件著作权. -
学术兼职
14 中德航空发动机/燃气轮机性能与先进冷却技术国际研讨会,会议主席及组织者,2023, 2021和2016;
13 上海交通大学hga010网页登录 学术委员,2015-;
12 上海交通大学-巴黎高科学院 学术委员, 2018-;
11 中国叶轮机械大会学术委员;
10 中国空天动力联合会综合热管理技术委员会委员;
9 上海市制造业创新中心(增材制造)技术委员会副主任委员和航空航天增材制造主任委员;
8 ASME IGTI Heat Transfer Committee Member, 2018--;
7 Aerospace期刊编辑-Special Issue,2022--;
6 《推进技术》期刊编委;2018--
5 ASME Member(美国机械工程师协会会员);
4 科技部领军人才评审专家;教育部特聘教授评审专家; 浙江省、陕西省高端人才评审专家;
3 国家自然科学基金面上和重点项目评审专家;工业信息化部重大科技专项、上海市及深圳市科委重大项目评审专家;
2 Int. J. Thermal Sci., Int. J. Heat Mass Transfer, ASME J. Heat Transfer, AIAA J.等国际权威期刊, 中国科学、工程热物理学报、航空学报、推进技术、动力工程学报等国内期刊审稿人。
1 知识产权(专利)仲裁专家;燃气轮机、热能及传热、流体领域;2011 -
荣誉奖励
1 xxx产业创新领军人才,2023;
1 全球顶尖(2%)科学家榜单:“终身科学影响力”和“年度科学影响力”,2023;
1 2023, 2021, 2016中德航空发动机/燃气轮机技术国际研讨会,共同主席和组织者;
1 ASME IGTI Turbo Expo Best Paper Award Normination 最佳论文奖提名,2022;
1 “最受欢迎教师奖”,2019年;
1 第9届中国航空动力年会优秀论文奖, 2018;
1 上海交通大学“晨星-教授”奖,2017;
1 德国研究基金会DFG Visiting Professorship, 2016 & 2017;
1 第13届国际传热流体力学与热力学会议(HEFAT)Outstanding Paper奖,2017;
1 上海交通大学“SMC-晨星”青年学者(A),2016;
1 德国学术交流中心 DAAD-K.C.Wong Fellowship, 2014-2015;
1 2016中国航空学会燃烧与传热传质学术会议最佳论文奖,2016;
1 美国 Who is Who in the World,2015;
1 2014上海交通大学优秀教师奖、“教学新秀”提名奖;
1 2013年第六届“全国大学生节能减排科技竞赛”二等奖项“大功率LED合成射流冷却装置”,指导教师,2013;
1 上海交通大学“烛光”教师奖, 一等奖;上海交通大学考核优秀奖,2012;
1 上海交通大学“SMC-晨星”青年学者(B),2012;
1 上海交通大学优异学士论文(Top 1%)指导教师,2012;
1 上海交通大学教师考核优秀奖,2011;
2 上海市白玉兰人才基金
3 上海交通大学“晨星优秀青年教师后备人才”一等奖 2009
4 上海交通大学“晨星优秀青年教师后备人才”二等奖 2008
5 德国DAAD研究奖学金获得者,2003.10-2005.09
6 中国物理教育论文奖,中国物理协会,2002
7 北京航空航天大学“冯如杯”科技成果 二等奖,2000
8 北京航空航天大学“冯如杯”科技成果 一等奖,1999
9 北京航空航天大学“华为”科技创新奖,1999
10 全国工科物理实验仪器研制成果 二等奖,1999
