任祝寅 教授 地 址：北京市海淀区清华大学李兆基科技大楼B-548室，邮编100084 办公室：李兆基科技大楼B-538室 电 话：(010) 627-97371 电子邮箱：zhuyinren@tsinghua.edu.cn 个人网站：https://www.labxing.com/ccetcg


教育背景 博士? 机械工程?????? 康奈尔大学 (Cornell University)????? 2006.01
硕士? 机械工程?????? 康奈尔大学 (Cornell University)????? 2005.01
本科? 机械工程?????? 中国科学技术大学 ? ? ? ? ? ? ? ? ? ? ? ? ??2001.07


工作经历 教授 ? ? ? ? ? ? ? ? 清华大学燃烧能源中心 ? ? ? ? ? ? ? ? ? ? ? ? ?2013-至今
助理教授 ? ? ? ? ? 康涅狄格大学 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 2011-2013
机械工程师 ? ? ? ?通用电气全球研发中心 ? ? ? ? ? ? ? ? ? ? ? ? 2010–2011
流体专家?????????? ANSYS/Fluent, Inc, Lebanon, NH ? ? ? ?2008-2010
博士后 ? ? ? ? ? ? ?康奈尔大学 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ??2006- 2007
访问?????????? 斯坦福大学湍流中心 ? ? ? ? ? ? ? ? ? ? ? ? ? ? 2004


其他职务 期刊编委 （Editorial Board）：? Combustion Theory and Modelling
会员：Member of Combustion Institute; American Physical Society; Society for Industrial and Applied Mathematics, senior member of AIAA


研究领域与兴趣


奖励与荣誉 Outstanding Performance Award ? ? ? ? ? ? ? ? ? ? ANSYS? Inc. ? ? ? ? ? ? ? ? ? ? 2009
Bernard Lewis Fellowship Award ? ? ? ? ? ? ? ? ? ? ?国际燃烧协会 ? ? ? ? ? ? ? ? ? ?2008
CTR 2004 Summer Program Fellowship ? ? ? ? ? Stanford University ? ? ? ? 2004
Cornell Graduate School Fellowship ? ? ? ? ? ? ? ? Cornell University ? ? ? ? ? 2002
McMullen Fellowship, ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? Cornell University ? ? ? ? ? 2001
优秀毕业论文 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 中国科学技术大学 ? ? ? ? ? ? 2001
宝钢教育奖 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 宝钢教育教育基金 ? ? ? ? ? ? 2000

著作与专利 所开发的软件：
S. B. Pope and Z. Ren (2006), “Computational Combustion”,http://instruct1.cit.cornell.edu/courses/fluent/comp_comb.htm.
Z. Ren, S. Subramaniam, and S.B. Pope (2002), “Implementation of the EMST MIXING MODEL”,?http://eccentric.mae.cornell.edu/~tcg/emst.
Z. Ren, V. Hiremath, S.B. Pope (2009), “ ice-pic: A library of Fortran 90 routines for using the dimension reduction methods RCCE and ICE-PIC with ISAT”,?http://tcg.mae.cornell.edu/ice-pic.
S.B. Pope, V. Hiremath, S.R. Lantz, Z. Ren and L. Lu (2012) ISAT-CK7: "A Fortran 90 library to accelerate the implementation of combustion chemistry."?http://tcg.mae.cornell.edu/ISATCK7


期刊文章 发表学术论文和专著章节60多篇，代表性论文有：（*通讯作者）
M. Kuron, Z. Ren*, E. R Hawkes, H. Zhou, H. Kolla, J. H. Chen, T. Lu, A mixing timescale model for TPDF simulations of turbulent premixed flames, Combustion and Flame, accepted, 2016
H. Wei, L. Zhou, H. Zhou, Z. Lu, Z. Ren*, G.M. Goldin “Toward efficient chemistry calculations in engine simulations through static adaptive acceleration”, Combustion Science and Technology, in press, 2016
H. Wei, C. Chen, H. Zhou, W. Zhao, Z. Ren*, “Effect of turbulent mixing on the end gas auto-ignition of n-heptane/air mixtures under IC Engine-relevant conditions” Combustion and Flame, 174,? 25–36, 2016.
M. Kuron, ?E. R Hawkes, Z. Ren, J. Tang, H. Zhou, J. H. Chen, T. Lu, “Performance of transported PDF mixing models in a turbulent premixed flame”, Proceedings of the Combustion Institute, in press, 2016.
W. Xie, L. Zhen, Z. Ren*, L. Hou, “ Dynamic adaptive chemistry via species time-scale and Jacobian-aided rate analysis”, Proceedings of the Combustion Institute, in press, ?2016
W. Ji, P. Zhao, P. Zhang, Z. Ren, X. He, C. K. Law, “On the crossover temperature and lower turnover state in the NTC regime”, Proceedings of the Combustion Institute,? in press, ?2016
Z. Ren*, Z. Lu, Y. Gao, T. Lu, L. Hou, “A kinetics-based method for constraint selection in rate-controlled constrained equilibrium”, Combustion Theory and Modelling, in press, 2016
B. Zhang, Z. Ren, S. Shi, S. Yan, F. Fang, “Numerical analysis of gasification and emission characteristics of a two-stage entrained flow gasifier”, Chemical Engineering Science, 152(2) 227-238, 2016
Z. Lu, L. Zhou, Z. Ren*, T. Lu, C. K. Law, “Effects of spray and turbulence modelling on the mixing and combustion characteristics of an n-heptane spray flame simulated with dynamic adaptive chemistry”, Flow Turbulence and Combustion,? 97(2) 609-629,? 2016
C. Xu, Y. Gao, Z. Ren, T. Lu, “A sparse stiff chemistry solver based on dynamic adaptive integration for efficient combustion simulations”, Combustion and Flame, 172, 183-193, 2016
H. Zhang, C. Han, T. Ye, Z. Ren “Large eddy simulation of turbulent premixed combustion using tabulated detailed chemistry and presumed probability density function”, Journal of Turbulence, ?17(3) 327-355, 2016
L. Hou, X. Zhang, Z. Ren, Coke suppression of kerosene by wall catalytic steam reforming. Fuel Processing Technology, 2016, 154: 117-122.
X. Pei, L. Hou, Z. Ren, “Flow Pattern Effects on the Oxidation Deposition Rate of Aviation Kerosene” Energy & Fuels 29 (9), 6088–6094, 2015
L. Zhou, Z. Lu, Z. Ren, T. Lu, K. H. Luo，Numerical analysis of ignition and flame stabilization in an n-heptane spray flame, International Journal of Heat and Mass Transfer, 88, 565–571, 2015
L. Zhou, Z. Lu, Z. Ren, T. Lu, et al., "Large Eddy Simulation of an n-Heptane Spray Flame with Dynamic Adaptive Chemistry under Different Oxygen Concentrations," SAE Int. J. Engines 8(2):447-454, 2015
O. Oluwole, Z. Ren, C. Petre, G.M. Goldin, “Decoupled species and reaction reduction: an error-controlled method for dynamic adaptive chemistry simulations”, Combustion and Flame, 162(5) 1934-1943, 2015
Y. Gao, Y. Liu, Z. Ren, T. Lu, “A dynamic adaptive method for hybrid integration of stiff chemistry”, Combustion and Flame, 162, 287-295，2015
L. Hou, N. Dong, Z. Ren, B. Zhang, S. Hu, “Cooling and coke deposition of hydrocarbon fuel with catalytic steam reforming”, Fuel Processing Technology, 128, 128-133, 2014
L. Hou, D. Niu, Z. Ren, “Partially premixed flamelet modeling in a hydrogen-fueled supersonic combustor”, International Journal of Hydrogen Energy, 39 (17) , 9497–9504, 2014
Z. Ren*, Zhen Lu, ?L. Hou, L. Lu, “Numerical simulation of turbulent combustion: Scientific challenges”, SCIENCE CHINA Physics, Mechanics & Astronomy, 2014, 57(8):1495-1503
Z. Ren*, C. Xu, T. Lu, M.A. Singer, “Dynamic adaptive chemistry with operator splitting schemes for reactive flow simulations”, Journal of Computational Physics, ??263, 19–36, 2014
Z. Ren*, Y. Liu, T. Lu, L. Lu, O.O. Oluwole, G.M. Goldin,“The use of dynamic adaptive chemistry and tabulation in reactive flow simulations”, Combustion and Flame, 161, 127-137, 2014
Z. Ren*, H. Yang; T.? Lu, “Effects of small-scale turbulence on NOx formation in premixed flame fronts”, Fuel, 115, 241-247, 2014
W. Xiao, Y. Guo, Z. Ren, G. Wrobel, Z. Ren, T.? Lu, P. Gao, “Mechanical agitation assisted growth of large scale and uniform ZnO nanorod arrays within 3D multi-channel monolithic substrates”, Crystal Growth & Design, 13 (8), 3657–3664, 2013
H. Yang, Z. Ren*, T. Lu, G.M. Goldin, “Dynamic adaptive chemistry for turbulent flame simulations”, Combustion Theory and Modelling, 17( 1), 167-183,? 2013
Z. Ren*, G.M. Goldin, V. Hiremath, and S.B. Pope, “Simulations of a turbulent nonpremixed flame using combined dimension reduction and tabulation for combustion chemistry”, Fuel, 105, 636-644, 2013
H. Yang, Z. Ren*, T. Lu, G.M. Goldin, “Dynamic adaptive chemistry for turbulent flame simulations”, Combustion Theory and Modelling, 17( 1), 167-183, ?2013
Z. Ren*, G.M. Goldin, V. Hiremath, and S.B. Pope, “Simulations of a turbulent nonpremixed flame using combined dimension reduction and tabulation for combustion chemistry”, Fuel, 105, 636-644 2013
T. Zhang, Y. Xin, Z. Ren, F. Qi, C.K. Law, “Catalytic oxidation of methane over PdO in wire microcalorimetry”, Combustion and Flame, 160, 149-154, 2013
Z. Ren, S.L. Wang, and M.A. Singer, “Modeling hemodynamics in an unoccluded and partially occluded inferior vena cava under rest and exercise conditions”, Medical & Biological Engineering & Computing, 50 (3) 277-287, 2012
Z. Ren*, G.M. Goldin, V. Hiremath, and S.B. Pope, “Reduced description of reactive flows with tabulation of chemistry”, Combustion Theory and Modelling, 15(6), 827-848 (2011)
V. Hiremath, Z. Ren, and S.B. Pope, “Combined dimension reduction and tabulation strategy using ISAT–RCCE–GALI for the efficient implementation of combustion chemistry”, Combustion and Flame,
158(11)? (2011) 2113-2127
Z. Ren* and G.M. Goldin, “An efficient time scale model with tabulation of chemical equilibrium”, Combustion and Flame, 158(10) (2011) 1977-1979
V. Hiremath, Z. Ren, and S.B. Pope, “A greedy algorithm for species selection in dimension reduction of combustion chemistry”, Combustion Theory and Modelling, 14(5) (2010) 619-652
G.M. Goldin, Z. Ren, and S. Zahirovic, “A cell agglomeration algorithm for accelerating detailed chemistry in CFD”, Combustion Theory and Modelling, 13(4) (2009) 721-739
L. Lu, S.R. Lantz, Z. Ren, and S.B. Pope, “Computationally efficient implementation of combustion chemistry in parallel PDF calculations”, Journal of Computational Physics, 228 (2009) 5490-5525.
Z. Ren* and S.B. Pope, “Sensitivity calculations in PDF modeling of turbulent flames”, Proceedings of the Combustion Institute, 32 (2009) 1629-1637.
S.B. Pope and Z. Ren, “Efficient implementation of chemistry in computational combustion”, Flow, Turbulence and Combustion, 82(4) (2009) 437-453.
Z. Ren* and S.B. Pope, “Second-order splitting schemes for a class of reactive systems”, Journal of Computational Physics,?? 227 (2008), 8165-8176.
Z. Ren* and S.B. Pope, “Sensitivity calculations in PDF particle method”, Combustion and Flame, 153 (2008), 202-215.
Z. Ren* and S.B. Pope, “Reduced description of complex dynamics in reactive systems”, Journal of Physical Chemistry A, 111 (2007) ?8464-8474.
Z. Ren* and S.B. Pope, “Transport-chemistry coupling in the reduced description of reactive flows”, Combustion Theory and Modelling, 11(5) (2007) 1-25.
Z. Ren*, S.B. Pope, A. Vladimirsky, and J.M. Guckenheimer, “Application of the ICE-PIC method for the dimension reduction of chemical kinetics coupled with transport”, Proceedings of the Combustion Institute, 31 (2007) 473-481.
Z. Ren* and S.B. Pope, “The use of slow manifolds in reactive flows”, Combustion and Flame, 147 (2006) 243-261.
Z. Ren*, S.B. Pope, A. Vladimirsky, and J.M. Guckenheimer, “The ICE-PIC method for the dimension reduction of chemical kinetics”, Journal of Chemical Physics, 124 (2006) 114111.
Z. Ren* and S.B. Pope, “The geometry of reaction trajectories and attracting manifolds in composition space”, Combustion Theory and Modelling, 10 (3) (2006) 361-388.
Z. Ren* and S.B. Pope, “Species reconstruction using pre-image curves”, Proceedings of the Combustion Institute, 30 (2005) 1293-1300.
Z. Ren* and S.B. Pope, “Entropy production and element conservation in the quasi-steady-state approximation”, Combustion and Flame, 137 (2004) 251-254.
Z. Ren* and S.B. Pope, “An investigation of the performance of turbulent mixing models”, Combustion and Flame, 136 (2004) 208-216.