金台 - 浙江大学 - 航空航天学院

个人简介

金台，男，1988年10月出生于江西丰城，工学博士。 2009年获西安交通大学能源动力系统及自动化专业学士学位，2015年获浙江大学工程热物理专业博士学位，研究课题为超声速湍流燃烧多物理耦合的直接数值模拟。2015年3月留校从事博士后研究，2016年12月至2018年10月在英国伦敦大学学院（University College London)任博士后，与Kai H. Luo教授（英国皇家工程院院士、欧洲科学院院士）合作从事高压湍流燃烧的模拟研究。2019年6月入职浙江大学航空航天学院，担任讲师，2019年12月晋升副教授。主要从事超声速燃烧冲压发动机、航空发动机湍流燃烧（点火、熄火、不稳定性等）的数值模拟和试验研究。目前，在AIAA Journal, Journal of Fluid Mechanics, Combustion and Flame, Proceedings of the Combustion Institute, Physics of Fluids 等相关领域顶级国际期刊上发表论文40余篇，担任AIAA Journal, Energy, Computers & Fluids, Physics of Fluids等高水平国际期刊审稿人，参加国际燃烧会议、国际多相流会议、亚太燃烧会议、欧洲流体力学会议、GPPS会议等国际会议并做口头报告，担任第9届国际多相流会议（意大利，2016年）“多相流动燃烧”分会主持人。作为项目负责人主持国家自然科学基金面上项目2项，参与国家重点研发计划项目，两机专项等国家级课题，协助指导伦敦大学学院博士研究生1名，浙江大学研究生5名。曾获2012年度教育部博士研究生学术新人奖，获2018年度浙江省科学技术进步二等奖（排名第6/9）。工作经历副教授 2020.1至今浙江大学航空航天学院讲师 2019.6至2019.12 浙江大学航空航天学院博士后（Postdoctoral Research fellow） 2016.12~2018.10 伦敦大学学院（University College London）博士后 2015.3~2019.6 浙江大学能源工程学院教育经历工学博士 2009.9~2015.3 动力工程及工程热物理，浙江大学工学学士 2005.9~2009.6 能源动力系统及自动化，西安交通大学

研究领域

· 航空宇航推进 · 跨声速飞行器 · 发动机湍流燃烧 · 超声速推进 · 计算流体力学

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Tai Jin, Changcheng Song, Haiou Wang, Zhengwei Gao, Kun Luo, Jianren Fan. Direct numerical simulation of a supercritical hydrothermal flame in a turbulent jet. Journal of Fluid Mechanics. 2021, 992, A8. [2] Tai Jin, Kai H. Luo, Xujiang Wang, Kun Luo, Jianren Fan. Dynamics of triple-flames in ignition of turbulent dual fuel mixture: a direct numerical simulation study. Proceedings of the Combustion Institute, 2019, 37, 4625-4633. [3] Tai Jin, Kun Luo, Qi Dai, Jianren Fan*. Simulations of Cellular Detonation Interaction with Turbulent Flows. AIAA Journal, 2016,54,419-433. [4] Tai Jin, Kun Luo*, Qi Dai, Jianren Fan. Direct numerical simulation on supersonic turbulent reacting and non-reacting spray jet in heated coflow. Fuel, 2016,164:267-276. [5] Tai Jin, Kun Luo, Shuqiang Lu, Jianren Fan*. DNS investigation on flame structure and scalar dissipation of a supersonic lifted hydrogen jet flame in heated coflow. International Journal of Hydrogen Energy, 2013,38(23):9886-9896. Peer-reviewed Journal Articles [59] Zhentao Pang, Kai Liu, Hualin Xiao, Tai Jin, Kun Luo, Jianren Fan. A deep-learning super-resolution reconstruction model of turbulent reacting flow, Computers & Fluids, 2024, 275, 106249. [58] Linfei Li, Tai Jin, Liyong Zou, Kun Luo, Jianren Fan. Numerical study of Richtmyer-Meshkov instability in finite thickness fluid layers with reshock, Physical Review E, 2024, 109, 055105. [57] Jun Yang, Changxiao Shao, Lei Wang, Qizhe Wen, Niewei Yang, Zhi X Chen, Lei Li, Qiang An, Tai Jin, Kun Luo. A Bayesian optimization framework for the control of combustion instability of a bluff-body stabilized combustor, Physics of Fluids, 2024, 36, 5. [56] Dong Wang, Shuai Wang, Tai Jin, Kun Luo, Jianren Fan. Novel drag and Nusselt number models based on direct numerical simulations of a bidisperse gas–solid system, AIChE Journal, 2024, 70, e19308. [55] Tinglan Tang, Tai Jin, Gaofeng Wang. Numerical simulations of liquid film primary breakup in a pintle injector: a parametric study, Atomization and Sprays, 2024, 34, 6. [54] Changxiao Shao, Shian Yuan, Min Chai, Tai Jin, Kun Luo. A generalized variational level set method without frequent reinitialization for simulations of gas-liquid flows, Journal of Computational Physics, 2023, 495, 112558. [53] Tinglan Tang, Tai Jin, Gaofeng Wang.Numerical study on dynamics of oblique hollow droplet impact on a liquid film, Acta Mechanica Sinica, 2023, 39, 323175. [52] Yicun Wang, Changxiao Shao, Tai Jin, Kun Luo, Jianren Fan. Large eddy simulation of spray combustion using the spray flamelet/progress variable model: Further extension and validation, Physics of Fluids, 2023, 35, 10. [51] Linfei Li, Tai Jin, Liyong Zou, Kun Luo, Jianren Fan. Numerical study of Richtmyer–Meshkov instability of a flat interface driven by perturbed and reflected shock waves, Physics of Fluids, 2023, 35, 2. [50] Runzhi Liu, Kun Luo, Changcheng Song, Tai Jin, Min Chai, Jianren Fan. Large eddy simulation of a turbulent supercritical hydrothermal flame with a novel direct moment closure model, Fuel, 2023, 332, 126037. [49] Yunzheng Yang, Tao Ren, Changying Zhao, Tai Jin. Assessment of turbulence–radiation interactions in spectral radiative emission–absorption modeling, International Communications in Heat and Mass Transfer, 2023, 140, 106554. [48] Hualin Xiao, Kun Luo, Tai Jin, Jiangkuan Xing, Min Chai, Jianren Fan. The effects of swirling partially premixed flame on scaled kinetic energy transport in a gas turbine-like combustor, Proceedings of the Combustion Institute, 2023, 39, 2017-2115. [47] Chao Wang, Tai Jin, Min Chai, Kun Luo, Jianren Fan. Recent advances in hybrid Eulerian–Lagrangian description of atomization, The Canadian Journal of Chemical Engineering, 2022. [46] Changxiao Shao, Tai Jin, Kun Luo. The interaction between droplet evaporation and turbulence with interface-resolved direct numerical simulation, Physics of Fluids, 2022. [45] Elsayed Barakat, Tai Jin, Hui Wang, Keqi Hu, Gaofeng Wang. Experimental and numerical study of fogging cooling performance through a cylindrical duct for a micro gas turbine. Applied Thermal Engineering, 2022. [44] Dong Wang, Tai Jin, Kun Luo, Jianren Fan. An improved direct-forcing immersed boundary method for simulations of flow and heat transfer in particle-laden flows, International Journal of Multiphase Flow, 2022, 104139 [43] Dong Wang, Tai Jin, Kun Luo, Jianren Fan. Analysis of the particles-induced turbulence in confined gas-solid fluidized beds by PR-DNS, International Journal of Multiphase Flow, 2021, 141, 103655 [42] Yuzhou Cheng, Tai Jin, Kun Luo, Zongyan Li, Haiou Wang, Jianren Fan. Effect of flame holder temperature on the instability modes of laminar premixed flames, Fuel, 2021, 293, 119628. [41] Kun Luo, Dong Wang, Tai Jin, Shuai Wang, Zhuo Wang, Junhua Tan, Jianren Fan.Analysis and development of novel data-driven drag models based on direct numerical simulations of fluidized beds, Chemical Enginnering Science, 2021, 231, 116245. [40] Yuzhou Cheng, Tai Jin, Kun Luo, Zongyan Li, Haiou Wang, Jianren Fan. Large eddy simulations of spray combustion instability in an aero-engine combustor at elevated temperature and pressure, Aerospace Science and Technology, 2021, 108, 106329. [39] Tai Jin, Changcheng Song, Haiou Wang, Zhengwei Gao, Kun Luo, Jianren Fan. Direct numerical simulation of a supercritical hydrothermal flame in a turbulent jet. Journal of Fluid Mechanics. 2021, 992, A8. [38] Liang Zhong, Yao Yang, Tai Jin, Yifan Xia, Yuanqi Fang, Yao Zheng, Gaofeng Wang∗, Local flame front properties of propagating premixed turbulent flames during light-round ignitions in a MICCA-type annular combustor, Combustion and Flame, 2021, 231(9):111494. [37] Qi Dai, Tai Jin, Kun Luo, Wei Xiao, Jianren Fan. Effects of heat release on turbulence characteristics in a three-dimensional spatially developing supersonic droplet-laden mixing layer. Fuel, 2021, 301, 121030. [36] Elsayed Barakat, Hui Wang, Tai Jin, Wenjie Tao, Gaofeng Wang, Isothermal swirling flow characteristics and pressure drop analysis of a novel double swirl burner，AIP Advances, 11(3):35240. [35] Yao Yang, Gaofeng Wang, Yuanqi Fang, Tai Jin, Jingxuan Li. Experimental study of the effect of outlet boundary on combustion instabilities in premixed swirling flames. Physics of Fluids. 2021. [34] Yao Yang, Yuanqi Fang, Liang Zhong, Yifan Xia, Tai Jin, Jingxuan Li , Gaofeng Wang, DMD analysis for velocity fields of a laminar premixed flame with external acoustic excitation, Experimental Thermal and Fluid Science, 2021,123(1):110318 [33] Hualin Xiao, Kun Luo, Tai Jin, Haiou Wang, Jianren Fan. Direct numerical simulations of turbulent non-premixed flames: assessment of turbulence within swirling flows. Physics of Fluids. 2021. [32] Wei Xiao, Tai Jin, Kun Luo, Qi Dai, Jianren Fan. Eulerian-lagrangian direct numerical simulation of prefential accumulation of intertial particles in a compressible turbulent boundary layer. Journal of Fluid Mechanics. 2020, 903, A.19 . [31] Wei Xiao, Chaoli Mao, Tai Jin*, Kun Luo, Jianren Fan. Fully resolved simulation of a shockwave interacting with randomly clustered particles via a ghost-cell immersed boundary method. Physics of Fluids. 2020, 32, 066105. [30] Jiangkuan Xing, Kun Luo, Haiou Wang, Tai Jin, Jianren Fan. Novel sensitivity study for biomass directional devolatilization by random forest models. Energy & Fuels. 2020. [29] Jiangkuan Xing, Kun Luo, Haiou Wang, Zhengwei Gao, Tai Jin, Jianren Fan. Comparative study on different treatments of coal devolatilization for pulverized coal combustion simulation. Energy & Fuels. 2020, 34, 3, 3816-3827. [28] Changcheng Song, Tai Jin, Haiou Wang, Zhengwei Gao, Kun Luo, Jianren Fan. Highfidelty numerical analysis of non-premixed hydrogen hydrothermal flames: flame structure and stablization mechanism. Fuel, 2020, 259, 116162. [27] Tai Jin, Yunchao Wu, Xujiang Wang, Kai H. Luo, Tianfeng Lu, Kun Luo, Jianren Fan. Ignition dynamics of DME/methane-air reactive mixing layer under reactivity controlled compression ignition conditions: Effects of cool flames. Applied Energy, 2019,249,343-354 [26] Tai Jin, Kai H. Luo, Xujiang Wang, Kun Luo, Jianren Fan. Dynamics of triple-flames in ignition of turbulent dual fuel mixture: a direct numerical simulation study. Proceedings of the Combustion Institute, 2019, 37, 4625-4633. [25] Chaoli Mao, Tai Jin*, Kun Luo, Jianren Fan. Investigation of supersonic turbulent flows over a sphere by fully resolved direct numerical simulation. Physics of Fluids, 2019, 31, 056102. [24] Qi Dai, Tai Jin, Kun Luo, Jianren Fan. Direct numerical simulation of a three-dimensional spatially evolving compressible mixing layer laden with particles. I. Turbulent structures and asymmetric properties. Physics of Fluids, 2019, 31, 083302. [23] Qi Dai, Tai Jin, Kun Luo, Wei Xiao, Jianren Fan.Direct numerical simulation of a three-dimensional spatially evolving compressible mixing layer laden with particles. II. Turbulence anisotropy and growth rate. Physics of Fluids, 2019, 31, 083303. [22] Xujiang Wang, Tai Jin*, Kai H. Luo*. Response of heat release to equivalence ratio variations in high Karlovitz premixed H2/air flames at 20 atm, International Journal of Hydrogen Energy, 2019, 44, 3195-3207. [21] Changcheng Song, Kun Luo, Tai Jin, Haiou Wang, Jianren Fan. Direct numerical simulation on auto-ignition characteristics of turbulent supercritical hydrothermal flames, Combustion and Flame, 2019, 200, 354-364. [20] Qi Dai, Tai Jin*, Kun Luo, Jianren Fan. Direct numerical simulation of particle dispersion in a three-dimensional spatially developing compressible mixing layer, Physics of Fluids, 2018, 30, 113301. [19] Jorgen R. Aarnes*, Tai Jin*, Chaoli Mao, Nils E. L. Haugen, Kun Luo, Helge I. Andersson. Treatment of solid objects in the Pencil Code using an immersed boundary method and overset grids. Geophysical & Astrophysical Fluid Dynamics. Online. DOI: 10.1080/03091929.2018.1492720. [18] Tai Jin, Xujiang Wang, Kai H. Luo, Kun Luo, Jianren Fan. Structure of tetrabrachial flames in non-premixed autoigniting DME/air mixtures. Fuel, 2018, 232, 90-98. [17] Xujiang Wang, Tai Jin, Yongliang Xie, Kai H. Luo. Effects of pressure and Karlovitz number on the turbulence-flame interactions in lean premixed H2/air flames. Fuel, 2018, 234, 1293-1300. [16] Xujiang Wang, Tai Jin, Yongliang Xie, Kai H. Luo. Pressure effects on flame structures and chemical pathways for lean premixed turbulent H2/air flames: three dimensional DNS studies. Fuel. 2018,231,320-329. [15] Cesar Huete*, Tai Jin*, Daniel Martinez-Ruiz, Kun Luo. Interaction of a planar reacting shock wave with an isotropic turbulent vorticity field. Physical Review E. 2017, 96,053104. (co-corresponding author) [14] Tai Jin, Kun Luo*, Shuqiang Lu, Jianren Fan. Analysis of conditional statistics of a supersonic jet flame in heated coflow via direct numerical simulation. Acta Astronautica, 2017,134,179-188. [13] Qi Dai, Kun Luo*, Tai Jin, Jianren Fan. Direct Numerical Simulation of Turbulence Modulation by Particles in Compressible Isotropic Turbulence, Journal of Fluid Mechanics, 2017, 832, 438-482. [12] Kun Luo, Yujuan Luo, Tai Jin, Jianren Fan*. Numerical analysis on shock-cylinder interaction using immersed boundary method, Science China-technological sciences, 2017,60,1-10. [11] Kun Luo, Yun Bai, Tai Jin, Kunzan Qiu, Jianren Fan*, Direct Numerical Simulation Study on the Stabilization Mechanism of a Turbulent Lifted Pulverized Coal Jet Flame in a Heated Coflow, Energy & Fuels, 2017,31(8),8742-8757. [10] Kun Luo, Yujuan Luo, Tai Jin, Jianren Fan*. Studies on shock interactions with moving cylinders using immersed boundary method, Physical Review Fluids, 2017,2,064302. [9] Tai Jin, Kun Luo*, Qi Dai, Jianren Fan. Numerical study on three-dimensional CJ detonation waves interacting with isotropic turbulence. Science Bulletin, 2016, 61:1756-1765. [8] Tai Jin, Kun Luo, Qi Dai, Jianren Fan*. Simulations of Cellular Detonation Interaction with Turbulent Flows. AIAA Journal, 2016,54,419-433. [7] Tai Jin, Kun Luo*, Qi Dai, Jianren Fan. Direct numerical simulation on supersonic turbulent reacting and non-reacting spray jet in heated coflow. Fuel, 2016,164:267-276. [6] Tai Jin, Kun Luo*, Shuqiang Lu, Jianren Fan. Direct numerical simulation of a supersonic lifted hydrogen jet flame: A priori study on combustion models. Acta Astronautica, 2015,109:52-64. [5] Tai Jin, Kun Luo*, Fan Wu, Jiansheng Yang, Jianren Fan. Numerical investigation of erosion on a staggered tube bank by particle laden flows with immersed boundary method. Applied Thermal Engineering, 2014,62(2):444-454. [4] Tai Jin, Kun Luo, Shuqiang Lu, Jianren Fan*. DNS investigation on flame structure and scalar dissipation of a supersonic lifted hydrogen jet flame in heated coflow. International Journal of Hydrogen Energy, 2013,38(23):9886-9896. [3] Tai Jin*, Li Zhang, Kun Luo, Jianren Fan. Three-dimensional numerical study on thermal performance of a super large natural draft cooling tower of 220m height. Journal of Thermal Science, 2013,22(3):234-241. [2] Kun Luo, Tai Jin, Shuqiang Lu, Jianren Fan*. DNS analysis of a three-dimensional supersonic turbulent lifted jet flame. Fuel, 2013,108:691-698. [1] Tai Jin, Kun Luo, Jianren Fan*, Jiansheng Yang. Immersed boundary method for simulations of erosion on staggered tube bank by coal ash particles. Powder Technology, 2012,225:196-205. - 中文期刊论文 [10] 林伟，郑水华，柴敏，孙泽楠，金台*. 气液针栓式喷注器液膜破碎过程和结构的数值研究. 航空动力学报, 2022. [9] 金台，王旭江，罗开红，罗坤*，樊建人. 高强度湍流预混火焰NO生成特性的研究. 工程热物理学报，2018,39,2056-2061. [8] 戴琪, 金台*, 罗坤, 樊建人. 可压缩均匀湍流中颗粒对湍流调制的数值研究. 工程热物理学报，2018,. [7] 戴琪, 金台*, 罗坤, 樊建人. 驻定斜爆轰波起爆条件与结构的数值模拟研究. 推进技术，2018,39,2357-2362. [6] 罗玉娟，罗坤，金台，樊建人. 激波与颗粒相互作用全尺度直接数值模拟，工程热物理学报, 2016, 37, 1-6. [5] 郑水华*, 金台, 罗坤, 唐磊，易超，樊建人. 逆流式自然通风冷却塔热力性能的三维数值模拟. 中南大学学报(自然科学版), 2013(09):3898-3903. [4] 金台, 罗坤, 杨建胜, 樊建人. 采用内嵌边界方法模拟错列管束的磨损. 西安交通大学学报, 2012(07):122-127. [3] 金台, 张力, 唐磊, 易超，高翔，罗坤*，樊建人. 自然通风湿式冷却塔配水优化的三维数值研究. 中国电机工程学报, 2012(02):9-15. [2] 罗坤, 金台, 卢树强, 樊建人. 超音速氢气燃烧火焰结构特性的直接数值模拟. 工程热物理学报, 2012(11):2010-2014. [1] 罗坤*, 金台, 樊建人*, 岑可法. 网格尺寸对液滴蒸发的影响. 浙江大学学报(工学版), 2011(12):2176-2180.