叶桃红副教授，工学博士

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一、联系方式
单位：中国科学技术大学热科学和能源工程系
地址：安徽省合肥市金寨路96号
邮编：230027
联系方式：
电子邮箱：thye@ustc.edu.cn

二、教育背景
　1982.9—1986.7　西安交通大学动力机械工程系获学士学位
　1989.9—1992.7　西安交通大学动力机械工程系获硕士学位
　1994.9—1998.12　中国科学技术大学热科学和能源工程系获博士学位
　1992.8—1999.3　中国科学技术大学热科学和能源工程系教师
　2004.9—至今　中国科学技术大学热科学和能源工程系任教

三、主要工作经历
?1999.03-2004.10葡萄牙里斯本高技术研究所，博士后，参与欧盟若干技术开发项目，研究方向是IGCC气化炉内过程的研究
?2002.01-2002.10美国普渡大学机械工程系，博士后，开展可压缩大涡模拟研究
?2004.09至今中国科学技术大学热科学和能源工程系，副教授

四、近年来研究方向
?湍流燃烧模型研究
?湍流液雾两相流燃烧的数值模拟及实验研究
?超声速流动下湍流燃烧数值模拟研究

五、承担主要科研项目
XX预研项目：“XX启动及热环境数值研究”，项目负责人，2019
国家自然科学基金委：“湍流液雾燃烧的概率密度函数方法模拟的基础研究”，项目主要成员，2016-2019
国家自然科学基金委“面向发动机湍流燃烧基础问题”重大研究计划中培育项目：“MMC湍流燃烧模型及其在大涡模拟中的应用研究” （资助号：**），项目负责人，资助金额：80万，2015.01-2017.12
十二五国家科技支撑计划子专题：“燃气射流除冰仿真计算”，项目主要成员，2014.01-2015.06
国家自然科学基金委面上项目：“钝体驻定湍流部分预混火焰的实验和数值模拟研究”（资助号：**），负责人，资助金额：60万，2012.01-2015.12
国家自然科学基金委重点项目“湍流液雾两相流燃烧大涡模拟”，项目主要成员，2010.01-2013.12；
XX重大专项预研基金：“XX数值模拟技术”，项目负责人，资助金额： 354万，2011.1-2015.12；
国家自然科学基金委面上项目：“用概率密度函数方法研究超声速燃烧”（资助号：**），项目负责人，资助金额：30万，2008.01-2010.12；
XX预研项目：“加力燃烧室点火、熄火的非稳态过程模拟程序开发”，项目负责人，资助金额：33万，2007.06-2009.06；
XX预研基金：“超声速流动下湍流模型研究”，项目负责人，资助金额：17万，2007.03-2009.03；
XX预研基金：“加力燃烧室数值模拟”，项目主要完成人，资助金额：30万，2003.06-2005.06

六、承担教学工作
?主讲本科生“气体动力学”
?主讲研究生“湍流燃烧”
?合作主讲本科生“热力设备原理”

七、代表论著
Majie Zhao, Qinling Li &Taohong Ye*, Large-eddy Simulations of Transverse Jet Combustion in Supersonic Cross-flow: Flame Stability and Mixing Mechanism, Combustion and Flame, under review
Taotao Zhou，Peng Zhao, Taohong Ye*, Minming Zhu, Direct numerical simulation of N-Dodecane spray autoignitionin NTC regime, Combustion and Flame, under revision
Majie Zhao, Qinling Li &Taohong Ye*, Large eddy simulation of transverse single/double jetin supersoniccrossflow, Aerospace science and technology, Under revision
Majie Zhao, Qinling Li &Taohong Ye*, LES Investigations of the Mixing Characteristic in a Transverse Hydrogen Injection Combustor with an Inlet Compression Ramp, Acta Astronautica,accepted
Yuyang Wu, Taotao Zhou, Minming Zhu*, Taohong Ye*, Wei Wei, Numericalsimulation of the coupling effects of low temperature chemistry and evaporation on n-heptane/air autoignition, Fuel,243（2019）：202-209
Taotao Zhou, Majie Zhao, Minming Zhu*,Taohong Ye*,Minghou Liu,Three dimensional DNS of n-dodecane spray autoignition with complex chemistry, Energy & Fuel, 32 (2018): 9838-9849
YU Zhou, ZHANG Hong-da, YE Tao-hong*, ZHU Min-ming, Large Eddy Simulation of Turbulent Premixed and StratifiedCombustion Using Flame Surface Density Model, Applied Mathematicsand Mechanics(English Edition), 39 (2018): 1719-1736
YU Zhou, ZHANG Hong-da, YE Tao-hong*,ZHU Min-ming, Large Eddy Simulation of Turbulent Premixed Piloted Flame UsingDynamic Thickened Flame Coupled with Tabulated Chemistry, Applied Mathematicsand Mechanics(English Edition), 39 (2018): 1277-1294
Hongda Zhang, Zhou Yu, Taohong Ye^*,Ming Cheng, Hongjun Lin, Majie Zhao，Large eddy simulation of turbulent stratifiedcombustion usingdynamic thickened flame coupled tabulated detailed chemistry，Applied mathematical modeling, 62 (2018) :476–498
Yifan Bian, Majie Zhao, Qinling Li&Taohong Ye*, Characteristics of Self-throttling System on Mixing Enhancement in Supersonic Flow with Transverse Injection, International Journal of Hydrogen Energy, 43 (2018): 13550-13562
Wei Wei, Zhou Yu, Taotao Zhou, Taohong Ye*,A numerical study of laminar flame speed of stratified syngas/air flames,International Journal of Hydrogen Energy,43 (2018): 9036-9045
Peng Tang, Hongda Zhang, Taohong Ye*,Zhou Yu, Zhaoyang Xia, A novel method for chemistry tabulationofstrained premixed/stratified flames based on principal components analysis, Applied Mathematicsand Mechanics(English Edition),39(2018):855–866
Hongda Zhang, Zhou Yu, Taohong Ye*, Majie Zhao, Ming Cheng, Large eddy simulation of turbulent lifted flamein a hot vitiated coflow usingtabulated detailed chemistry, Applied Thermal Engineering,128 (2018) 1660–1672
Y.Yan,T. H.Ye* and N. P. JiangExperimental investigation on burner lip thickness effect on the liftoff and blowout velocities of jet diffusion flame.Journal of Engineering Thermophysics, 26(2017): 416-426
Majie Zhao, Taotao Zhou, Taohong Ye*, Minming Zhu,Hongda Zhang， Large eddy simulation of reacting flow in a hydrogen jet into supersonic cross-flow combustor with an inlet compression ramp, International Journal of Hydrogen Energy,42 (2017): 16782-16792
Hongda Zhang,Taohong Ye*, Gaofeng Wang, Peng Tang, Minghou Liu, Large eddy simulation of turbulent premixed swirling flames using dynamic thickened flame with tabulated detailed chemistry, Flow, Turbulence and Combustion, 98(2017): 841-885
Taotao Zhou, Taohong Ye*, Minming Zhu*, Majie Zhao, Jing Chen，Effect of droplet diameter and global equivalence ratio on n-heptanespray autoignition. Fuel，187 (2017):137–145
Majie Zhao, Taohong Ye*, Changmin Cao, Taotao Zhou， Study of sonic injection from circular injector into a supersonic cross-flowusing large eddy simulation. International Journal of Hydrogen Energy,41 (2016):17657-7669
Taotao Zhou, Dong Xu, Jing Chen, Changmin Cao, Taohong Ye*，Numerical analysis of turbulent round jet impingement heat transfer at high temperature difference. Applied Thermal Engineering，100 (2016)：55-61
Hongda Zhang, Chao Han,Taohong Ye*,Zhuyin Ren,Large eddy simulation of turbulent premixed combustion using tabulated detailed chemistry and presumed probability density function[J]. Journal of Turbulence, 17（2016）: 327-355
Hongda Zhang, Chao Han, Jimin Zhang, Taohong Ye*, Large eddy simulation of unconfined turbulent swirling flow. Science China Technological Sciences, 58（2015）：1731-1744
Yuxin Wu, Changmin Cao, Taohong Ye*, Qizhao Lin, A new multi-dimensional flamelet generated manifolds approach for approximating partially premixed flame structure. Journal of Thermal Science and Technology,2015
Cao Changmin, Ye Taohong*,Zhao Majie. Large Eddy Simulation of H2/air SCRAMJETCombustionUsing Tabulated Thermo-chemistryApproach. Chinese Journal of Aeronautics，28（2015）：1316-1327
XingSi Han, TaoHong Ye*,YiLiang Chen. Effects of self-throttling on combustionenhancement in supersonic ?ow with transverseinjection. International Journal of Hydrogen Energy, 40 (2015)：8193-8205.