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30余篇，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等5项，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，西安交通大学教学与课程 2019年，高等计算空气动力学，32学时研究课题与项目国家自然科学基金面上项目，2021.01-2024.12,58万元，负责人浙江省自然科学基金，2021.01-2023.12,10万元，负责人中央高校基本科研业务费专项，2020QNA4047，非均匀横向气流中燃油雾化的模拟研究，2020.01-2021.12，25万元，负责人智能飞行器与工程优势特色学科基金，宽速域智能飞行器气动特性研究，2020.01-2020.12，13万元，负责人国家自然科学基金重点项目，91741203，发动机燃烧室环境中燃烧对湍流的影响机理及模型研究，2018.01-2021.12，300万元，参与人国家自然科学基金面上项目，51576176，可压缩气液两相反应流的高精度数值模拟研究，2016.01-2019.12，72万元，负责人中国博士后科学基金国际交流计划派出项目，20160006，高压湍流燃烧的直接数值模拟研究，2016.12-2018.10，30万元，负责人中国博士后科学基金面上项目，2015M581928，超声速混合层燃烧的高精度数值模拟研究，2015.08-2017.03，5万元，负责人中央高校基本科研业务费专项，2016FZA4008，可压缩气液两相燃烧的数值模拟，2016.01-2016.12，35万元，负责人奖励荣誉 2018浙江省科学技术进步二等奖 2014浙江大学争创优秀博士学位论文资助（资助号：201407B） 2013研究生国家奖学金 2012 2012年度教育部“博士研究生学术新人奖” 2012浙江大学岑可法一等奖学金

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

查看导师最新文章（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）

[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 [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.

学术兼职

担任Energy, Computers & Fluids, Powder Technology, Physics of Fluids等高水平国际期刊审稿人，