姓名:姚卫 |
 |
工学博士,教授,博士生导师 |
邮箱:weiyao@imech.ac.cn |
研究领域:计算流体力学 |
教育经历
2007.06 至 2010.12 厄尔斯特大学(英国) 火灾安全工程与技术专业 博士
2005.09 至 2007.07 中国科学技术大学 安全科学与工程系 硕士
2001.09 至 2005.07 中国科学技术大学 热科学和能源工程系 学士
工作经历
(1) 2021.12 至 今 中国科学院力学研究所空天飞行高温气动全国重点实验室(原:高温气体动力学国家重点实验室) 研究员
(2) 2013.07至2021.12 中国科学院力学研究所 高温气体动力学国家重点实验室 副研究员
(3) 2011.03至 2013.06 清华大学 博士后
主持或参加的科研项目
(1) 中国科学院, 中国科学院基础与交叉前沿科研先导专项(B类)课题, XDB0500301, 高精度耦合力学模拟软件, 2023-09 至 2026-08, 1712.63万元, 在研, 主持。
(2) 国家自然科学基金委员会, 面上项目, 12272387, 基于动态自适应分区概念的非平衡超声速燃烧建模研究, 2023-01-01 至 2026-12-31, 55万元, 在研, 主持。
(3) 科技部, 国家科技重大专项子课题, 2021YFA0719204, 航空发动机两相湍流燃烧模型集成与应用示范, 2021-12 至 2026-11, 180万元, 在研, 主持。
(4) 北京动力机械研究所, 企业横向, 202304631, 冲压发动机燃烧仿真工具, 2023-11 至 2027-05, 303.5万元, 在研, 主持。
科研成果(论文、专著等)
近5年一作/通讯作者SCI/EI论文主要列表
[1]Yu Wang, Wei Yao, Jianwen Liu, Xisheng Luo. Thermo-chemical Nonequilibrium Effect on Hydrogen- and Ethylene-Fueled Supersonic Combustion. Combustion and Flame, 2026, 285: 114757. (SCI,EI,一作/通讯)
[2]Tong Liu, Yu Wang, Wei Yao, Xinlong Feng*, Jianwen Liu. A POD-driven deep learning prediction model for supersonic combustion. Aerospace Science and Technology, 2026, 175: 112005. (SCI, EI, 一作/通讯)
[3]Jiaojiao Cao, Jiansong Wu*, Xiaole Dai, Wei Yao, Tong Xu. The intrinsic safety design of coming hydrogen tunnels based on energy transfer mechanism. Tunnelling and Underground Space Technology, 2026, 169: 107257. (SCI,EI,一作/通讯)
[4]Yu Wang, Wei Yao, Zheng Zhang, Jianwen Liu. Combustion hysteresis phenomenon in a dual-mode scramjet. AIAA Journal, 2025, 63(5): 1764-1777. (SCI,EI,一作/通讯)
[5]Wenming Sun, Wei Yao, Teng Li*, Wei Zhao. Large Eddy Simulation of Kerosene Spray Characteristics in Lean Direction Injection Combustor. Combustion Science and Technology, 2025: 1-27. (SCI,EI,一作/通讯)
[6]Wubingyi Shen, Yue Huang, Wei Yao, Junyu Wang. Investigation of Kerosene Combustion Characteristics in a Variable-Cavity Scramjet Combustor. AIAA Journal, 2025, 63(11): 4555-4567. (SCI,EI,一作/通讯)
[7]Hang Liu, Wei Yao, Xu Zhang, Xiaoyuan Zhang, Jianwen Liu, Lianjie Yue, Quanhua Sun. Nonequilibrium heating/cooling effects in a Ma 10 hydrogen-fueled scramjet. Journal of Propulsion and Power, 2024, 40(3): 337-353. (SCI,EI,一作/通讯)
[8]Zheng Zhang, Wei Yao, Qiu Wang, Wei Zhao. IDDES simulation of hydrogen-fueled supersonic combustion based on dynamic zone flamelet model. Fuel, 2023, 347. (SCI,EI,一作/通讯)
[9]Hui Zhang, Rui Yang, Jian Wang, Wei Yao. Advances in Computational Combustion Research in China: A Brief Review. Journal of Safety Science and Resilience, 2023, 4: 108–121. (EI,一作/通讯)
[10]Wei Yao, Hang Liu, Zheng Zhang, Xu Zhang, Lianjie Yue, Xiaoyuan Zhang, Jinping Li. Effects of thermal/chemical nonequilibrium on a high-Mach ethylene-fueled scramjet. Journal of Propulsion and Power, 2023, 39(4): 562-579. (SCI,EI,一作/通讯)
[11]Zheng Zhang, Wubingyi Shen, Wei Yao, Qiu Wang, Wei Zhao. Effect of helical fins on the combustion performance in a micro-step combustor. Fuel, 2022, 319: 123718.1-123718.13. (SCI,EI,一作/通讯)
[12]Wei Yao. Nonequilibrium effects in hypersonic combustion modeling. Journal of Propulsion and Power, 2022, 38: 523-540. (SCI, EI,一作/通讯)
[13]Wubingyi Shen, Yue Huang*, Wei Yao, Hedong Liu, Yancheng You. Improved delayed detached eddy simulation of supersonic combustion fueled by liquid kerosene. Fuel, 2022, 313. (SCI,EI,一作/通讯)
[14]Wei Yao, Hang Liu, Lianjie Xue, Yabing Xiao. Performance analysis of a strut-aided hypersonic scramjet by full-scale IDDES modeling. Aerospace Science and Technology, 2021, 117: 1-14. (SCI, EI,一作/通讯)
[15]Bo Li,Wei Yao, Yachao Lee, Xuejun Fan*. Reconstruction model for heat release rate based on artificial neural network. International Journal of Hydrogen Energy, 2021, 46(37): 19599-19616. (SCI, EI,一作/通讯)
[16]Yichao Jin, Wei Yao. Supercritical GN2/GH2 Jet Modeled by a Hybrid Extended Corresponding States Method. Journal of Thermophysics and Heat Transfer, 2021, 36(1): 1-12. (SCI, EI,一作/通讯)
[17]Zheng Zhang, Kun Wu, Richard Yuen, Wei Yao, Jian Wang*. Numerical investigation on the performance of bluff body augmented micro cavity-combustor. International Journal of Hydrogen Energy, 2020, 45(7): 4932-4945. (SCI, EI,一作/通讯)
[18]Wei Yao. On the application of dynamic zone flamelet model to large eddy simulation of supersonic hydrogen flame. International Journal of Hydrogen Energy, 2020, 45(41): 21940-21955. (SCI, EI, 一作/通讯)
[19]Bo Li, Yachao Lee, Wei Yao, Yang Lu, Xuejun Fan*. Development and application of ANN model for property prediction of supercritical kerosene. Computers & Fluids, 2020, 209: 1-18. (SCI, EI,一作/通讯)
[20]彭俊尧, 姚卫, 冯新龙*, 张政, 王静波, 刘建文. 基于神经网络的高维组分超临界物性预测研究. 推进技术, 录用,2026. (EI,一作/通讯)
[21]孙文明, 姚卫, 李腾*. 贫燃直喷燃烧室煤油两相燃烧特性改进延迟分离涡模拟, 燃烧科学与技术, 录用,2026. (EI,一作/通讯)
[22]曹娇娇, 吴建松*, 姚卫. 综合管廊弯道处掺氢天然气爆炸特性及控制方法研究. 中国安全科学学报, 录用,2026. (EI,一作/通讯)
[23]徐玮伦, 姚卫, 张政, 刘建文, 崔凯. 基于动态分区概念的超声速氢气射流火焰热非平衡效应分析. 推进技术, 2025, 46(10): 202410073-1. (EI,一作/通讯)
[24]Yu Wang, Wei Yao, Zheng Zhang. IDDES Simulation of the Combustion Mode Transition Process in a Dual-Mode Scramjet Based on Dynamic Zone Flamelet Model, AIAA Aviation Forum and Ascend 2024, Las Vegas, Nevada, 29 July - 2 August 2024. (EI,一作/通讯)
[25]Yichao Jin, Wei Yao. Comprehensive assessments of hypersonic inlet restart using active jet, AIAA AVIATION Forum, San Diego, CA, 12-16 June, 2023. (EI,一作通讯)
[26]南江浪, 张政*, 姚卫,刘凤君. 分区方法对超声速湍流燃烧动态分区火焰面数值模拟的影响. 力学学报, 2023, 56(3): 1-11. (EI,一作/通讯)
[27]姚卫,张政, 赵伟, 肖伟刚. 高超声速飞/发一体化进展与趋势. 推进技术, 2022, 44(8): 22010002. (EI,一作/通讯)
[28]姚卫,刘杭, 张政, 肖雅彬, 岳连捷. 基于动态分区概念的高超声速燃烧大涡模拟. 力学学报, 2022, 54(2): 1-21. (EI,一作/通讯)
[29]Yichao Jin, Wei Yao. Numerical investigation of an active jet control method for hypersonic inlet restart. Transactions of Nanjing University of Aeronautics and Astronautics, 2022, 39(6): 651-662. (EI,一作/通讯)
[30]Zheng Zhang, Wei Yao, Wei Zhao. LES modeling of duo-model scramjet by dynamic zone flamelet model, AIAA Propulsion and Energy Forum, VIRTUAL EVENT, 9-11 August, 2021. (EI,一作/通讯)
[31]Wei Yao, Hang Liu, Long Li, Lianjie Yue. Nonequilibrium effect modeling in high-Ma scramjet based on dynamic zone model, AIAA Propulsion and Energy 2021 Forum, Virtual Event, 9-11 August, 2021. (EI,一作/通讯)
[32]Wenming Sun, Hang Liu, Long Li, Wei Yao. Large eddy simulation of Axisymmetric scramjet based on dynamic zone flamelet model, The Proceedings of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), Jeju, Korea, 15-17 November, 2021. (EI,一作/通讯)
[33]Hang Liu, Wei Yao. LES investigation of nonequilibrium flow in a cavity-flameholding axisymmetric scramjet, AIAA Propulsion and Energy Forum, VIRTUAL EVENT, 9-11 August, 2021. (EI,一作/通讯)
[34]Yichao Jin, Wei Yao. LES investigation of real-fluid effect on underexpanded jets, AIAA Propulsion and Energy Forum, VIRTUAL EVENT, August 9-11, 2021. (EI,一作/通讯)
[35]Wei Yao, Liu Chen. Large eddy simulation of REST hypersonic combustor based on dynamic zone flamelet model, AIAA Propulsion and Energy 2020 Forum, online conference, 24-28 August, 2020. (EI,一作/通讯)
[36]Bo Li, Wei Yao, Xuejun Fan*. Evaluation of the influence of radiation on a GH2/GO2 rocket combustor, AIAA Propulsion and Energy 2020 Forum, online conference, August 24-28, 2020. (EI,一作/通讯)
[37]姚卫,孙超, 刘杭, 吴梅, 杨少波, 曹顺利. 局部时间步法在低马赫燃烧模拟中的适用性研究. 燃烧科学与技术, 2020, 27(3): 321-333. (EI,一作/通讯)
科研奖励
(1)AIAA高超声速系统与技术年度最佳论文奖(第一完成人), 美国航空航天学会(AIAA), 自然科学, 国际学术奖,2018
(2)姚卫(1/1),天河超算应用创新奖,2025
(3)姚卫(1/1),中国科学院大学拾光奉献纪念奖,2025
(4)姚卫(3/5),第七届冲压发动机内外流耦合流动研讨会优秀论文,2025
(5)姚卫(3/5),LHD2025夏季研讨会优秀论文,2025
(6)姚卫(7/8),第十四届全国实验流体力学学术会议优秀报告,2025
教学工作与学生培养
(1)在读硕士研究生2名,在读博士研究生3名。
(2)指导校外联合培养研究生7名。
(3)中国科学院大学工程科学学院宇航工程科学系高温气体动力学教研室岗位教师,《计算流体力学实践》首席教授。