过增元
GUO ZENG-YUAN
教授,博导,中科院院士
研究方向: 1) 微纳米尺度流动与传热 2) 场协同节能理论与传热强化技术 3) 传热传质过程的分子动力学模拟 4) 基于“质”“动”二象说的新概念热学 _____________________________________________________________________ 电话 : 010-62782660(办) 传真: 010-62783771 E-mail: demgzy@mail.tsinghua.edu.cn 办公室: 邮编: 100084 _____________________________________________________________________ 教育背景
1959:毕业于清华大学动力机械系
职历
2003.2-2003.4 访问教授,台湾成功大学(Cheng Kung University) 2001.2-2001.4 访问教授,日本京都大学(University of Kyoto) 1997.4-1997.6 访问教授,德国斯图加特大学(University of Stuttgart) 1995.5-1995.7 访问教授,日本东京大学(University of Tokyo)和索菲亚大学(Sophia Univ.) 1993.7-1993.12 访问教授,美国密西根州立大学(Michigan State University) 1989.8-1989.12 访问教授,德国斯图加特大学(University of Stuttgart) 1988.9-1988.10 访问教授,法国Ecole Centrale de Paris 1993-现在 兼职教授,美国密西根州立大学机械工程系(Dept of Mechanical Engineering, Michigan State University) 1984-现在 教授,清华大学工程力学系 1979-1981 洪堡学者,德国慕尼黑工业大学(Munich Technique University) 1959-1979 助教、讲师,清华大学数学与力学系
主要学术及社会兼职
国际传热传质中心执行委员(Executive Committee Member of International Center for Heat and Mass Transfer)(1993-现在)
国际传热大会常务理事和中国首席代表(Assembly Member of International Conference of Heat Transfer)(2000-现在)
国际刊物编委(Editor) 1)《实验热流体科学》(Experimental Thermal and Fluid Science)(1986-现在) 2)《强化传热杂志》(Journal of Enhanced Heat Transfer)(2004-现在) 国际刊物编委会委员(Member of Editorial Board) 1)《国际多相流杂志》(International Journal of Multiphase Flow)(1998-现在) 2)《微尺度热物理工程》(Microscale Thermophysical Engineering)(1997-现在) 3)《日本机械工程师协会国际刊物》(JSME International Journal)(2002-现在)
中国工程热物理学报副主编(1997-现在)
中国工程热物理学会副理事长(1997-现在)
中国力学学会理事(1989-现在)
清华大学机械学院院长(1999-现在)
荣誉及获奖
中国科学院院士(1997-现在)
美国机械工程师协会Fellow(1998-现在)
美国密西根州立大学兼职教授(1993-现在)
国家科技部奖励(1978、1994、1995、2004)
主要研究方向
1) 微纳米尺度流动与传热 2) 场协同节能理论与传热强化技术 3) 传热传质过程的分子动力学模拟 4) 基于“质”“动”二象说的新概念热学
专著及论文发表情况
专著3部,包括《电弧和热等离子体》、《热流体学》、《场协同原理与强化传热新技术》;论文300余篇,其中70篇被SCI收录。
_____________________________________________________________________ 近期代表性论著: 微纳米尺度流动与传热方面
1. BY Cao, M Chen, ZY Guo, Rarefied gas flow in rough microchannels by molecular dynamics simulation, Chinese Physics Letters, 2004, 21(9): 1777-1779 (SCI: 851VY)
2. XB Luo, ZX Li, ZY Guo, YJ Yang, Study on linearity of a micromachined convective accelerometer, MicroElectron Engineering, 2003, 65(1-2): 87-101 (SCI: 638XM)
3. ZY Guo, ZX Li, Size effect on microscale single-phase flow and heat transfer, Int. J. Heat Mass Transfer, 2003, 46: 149-159 (SCI: 617FA)
4. ZX Li, DX Du, ZY Guo, Experimental study on flow characteristics of liquid in circular microtubes, Microscale Thermophysical Engineering, 2003, 7(3): 253-265
5. XB Luo, ZX Li, ZY Guo, YJ Yang, Thermal optimization on micromachined convective accelerometer, Heat and Mass transfer, 2002, 38(7-8): 705-712 (SCI: 593LV)
6. W Wang, ZX Li, ZY Guo, Analysis of thermal cycling in micro-PCR chip, Int. J. Nonlinear Sciences and Numerical Simulation, 2002, 3: 233-236 (SCI: 574RR)
7. G Pelata, ZY Guo, ZX Li, G Zummo, Section 2.13.2 “Single-phase fluid flow”, in section 2.13 “Heat transfer and fluid flow in microchannels” (eds. G Pelata and G Zummo), Heat Exchanger Design Update, the Update Journal of the Heat Exchanger Design Handbook, HEDU update section, 2002, 9(1-2)
8. DX Du, ZX Li, ZY Guo, Friction resistance for gas flow in smooth microtubes, Science in China (Series E), April 2000, 43(2): 171-177 (SCI: 309AJ). 杜东兴,李志信,过增元,微细光滑管内气体流动阻力特性,中国科学(E辑),2000,30(2):173-178
9. ZY Guo, XB Wu, Further study on compressibility effects on the gas flow and heat transfer in a micro-tube, Microscale Thermophysical Engineering, 1998, 2(2): 111-120 (SCI: ZU013)
10. 曹炳阳,陈民,过增元,2DMD应用于微通道内气体流动研究,科学通报,2004,49(10):930-933
11. 王玮,葛峰,李志信,过增元,壁面轴向导热对微细管内对流换热的影响,工程热物理学报,2003,24(5): 846-848
12. 李娜,李志信,过增元,封闭空间内小尺度等温竖板自然对流的三维效应,上海理工大学学报,2003,25(3):218-220
13. 罗小兵,李志信,过增元,一种新型无阀微泵的原理和模拟,中国机械工程,2002,13(15):1261-1263 场协同节能理论与传热强化技术方面
1. JA Meng, ZJ Chen, ZX Li, ZY Guo, Field-coordination analysis and numerical study on turbulent convective heat transfer enhancement, J. Enhanced Heat Transfer, 2005, 12(1): 73-83
2. ZZ Xia, XG Cheng, ZX Li, Guo ZY, Bionic optimization of heat transport paths for heat conduction problems, J. Enhanced Heat Transfer, 2004, 11(2): 119-131 (SCI: 832OT)
3. ZY Guo, S Wei, XG Cheng, A novel method to improve the performance of heat exchanger - Temperature fields coordination of fluids, Chinese Science Bulletin, 2004, 49(1): 111-114(SCI: 774KZ)
4. LJ Yang, JX Ren, YZ Song, JC Min, ZY Guo, Convection heat transfer enhancement of air in a rectangular duct by application of a magnetic quadrupole field, Int. J. Engineering Science, 2004, 42(5-6): 491-507 (SCI: 770NW)
5. LJ Yang, JX Ren, YZ Song, ZY Guo, Free convection of a gas induced by a magnetic quadrupole field, J. Magnetism and Magnetic Materials, 2003, 261(3): 377-384 (SCI: 667QE)
6. ZY Guo, SQ Zhou, ZX Li, LG Chen, Theoretical analysis and experimental confirmation of the uniformity principle of temperature difference field in heat exchanger, Int. J. Heat Mass Transfer, 2002, 45(10): 2119-2127 (SCI: 551TN)
7. S Wang, ZY Guo, ZX Li, Heat transfer enhancement by using metallic filament insert in channel flow, Int. J. Heat and Mass Transfer, 2001, 44: 1373-1378 (SCI: 406HA)
8. ZY Guo, Mechanism and control of convective heat transfer - Coordination of velocity and heat flow fields, Chinese Science Bulletin, 2001, 46 (7): 596-599 (SCI: 429ZY)
9. ZY Guo, DY Li, BX Wang, A novel concept for convective heat transfer enhancement, Int. J. Heat and Mass Transfer, 1998, 41(14): 2221-2225 (SCI: ZP109)
10. 孟继安,陈泽敬,李志信,过增元,交叉缩放椭圆管换热与流阻实验研究及分析,工程热物理学报,2004,25(5):813-815
11. 程新广,李志信,过增元, 基于最小热量传递势容耗散原理的导热优化,工程热物理学报,2003,24(1):94-96
12. 魏澍,过增元,二维方腔内对流换热的场协同分析,工程热物理学报,2003,24(3):466-468
13. 过增元,程新广,夏再忠,最小热量传递势容耗散原理及其在导热优化中的应用,科学通报,2003,48(1):21-25
14. 过增元,换热器中的场协同原则及其应用,机械工程学报,2003,
15. 过增元,魏澍,程新广,换热器强化的场协同原则,科学通报,2003,48(22):2324-2327
16. 程新广,夏再忠,李志信,过增元,导热优化:热耗散与最优导热系数场,工程热物理学报,2002,23:715-717
17. 过增元,对流换热的物理机制及其控制:速度场与热流场的协同,科学通报,2000,45(19):2118-2122
传热传质过程的分子动力学模拟方面
1. BY Cao, M Chen, ZY Guo, Application of 2DMD to gaseous microflows, Chinese Science Bulletin, 2004, 49(11): 1101-1105 (SCI: 846CU)
2. ZJ Wang, M Chen, ZY Guo, A molecular study on the liquid-vapor interphase transport, Microscale Thermophysical Engineering, 2003, 7(4): 275-289 (SCI: 746DW)
3. XL Feng, ZX LI, ZY Guo, Molecular dynamics simulation of thermal conductivity of nanoscale thin silicon films, Microscale Thermophysical Engineering, 2003, 7(2): 153-161 (SCI: 706NU)
4. ZJ Wang, M Chen, ZY Guo, A two-dimensional molecular dynamics simulation of liquid-vapor nucleation, Chinese Science Bulletin, 2003, 48(7): 623-626 (SCI: 670MC)
5. ZJ Wang, M Chen, ZY Guo, Modified transition state theory for evaporation and condensation, Chinese Physics Letters, 2002, 19(4): 537-539 (SCI: 552AZ)
6. XL Feng, ZX Li, ZY Guo, Size effect of lattice thermal conductivity across nanoscale thin films by molecular dynamics simulations, Chinese Physics Letters, 2001, 18(3): 416-418 (SCI: 417RM)
7. YK Guo, ZY Guo, XG Liang, Three-dimensional molecular dynamics simulation on heat propagation in liquid argon, Chinese Physics Letters, 2001, 18(1): 71-73. (SCI: 397YD)
8. M Chen, ZY Guo, XG Liang, Molecular simulation of some thermophysical properties and phenomena, Microscale Thermal Engineering, 2001, 5(1): 1-16 (SCI: 408GM)
9. M Chen, C Yang, ZY Guo, Surface tension of Ni-Cu alloys: A molecular simulation approach, Int. J. Thermophysics, 2001, 22(4): 1295-1302 (SCI: 469YV)
10. ZJ Wang, M Chen, ZY Guo, C Yang, Molecular dynamics study on the liquid-vapor interfacial profiles, Fluid Phase Equilibria, 2001, 183: 321-329 (SCI: 461WB)
11. C Yang, M Chen, ZY Guo, Molecular dynamics simulations on specific heat capacity and glass transition temperature of liquid silver, Chinese Science Bulletin, 2001, 46(12): 1051-1053 (SCI: 458KQ)
12. C Yang, M Chen, ZY Guo, BB Wei, Hypercooling and the specific heat capacity of Cu-Ni alloy, Chinese Physics Letters, 2001, 18(1): 126-128 (SCI: 397YD)
13. ZY Guo, DX Xiong, C Yang, M Chen, ZX Li, Continuous liquid-vapor phase transition in microspace, Int. J. Thermal Science, 2000, 39(4): 481-489 (SCI: 306VZ)
14. 曹炳阳,陈民,过增元,纳米通道滑移流动的分子动力学研究,工程热物理学报,2003,24(4):670-672
15. 王金照,陈民,过增元,液相中气相成核的二维分子动力学模拟,科学通报,2003,48(2):125-128
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