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李志信
教授、博导
研究方向:
微细尺度流动与传热、传热强化,热现象的分子动力学模拟
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电话 :
传真:
E-mail: lizhx@tsinghua.edu.cn
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1947年9月生于河南省延津县,1964年9月至1970年3月就读于清华大学工程力学数学系热物理专业,毕业后留在清华大学工程力学系任教至今。其间, 1980年9月至1983年3月攻读在职研究生,获工学硕士学位,1991年赴德国斯图加特大学作合作研究工作一年。1997年晋升为教授,1998年被批准为博士生导师。1994年12月至2000年10月,任工程力学系副主任,负责研究生工作;现担任清华大学动力工程与工程热物理分学位委员会副主席,传热强化与过程节能教育部重点实验室副主任。2000年起任"工程热物理学报"编委。
教学工作:
从1992年起, 承担本专业本科生的"传热学"课程的教学工作,本课程在讲授求解传热问题的方法的同时,强调对热现象的物理机制的分析,训练学生从工程或科研的实际问题中抽象概括出典型传热问题的能力。目前使用的主要教学参考书为:1. 传热学(第三版), 杨世铭, 陶文铨编著, 高教版; 2. Fundamentals of Heat and Mass Transfer (Fourth edition),Frank P. Incropera and David P. DeWitt, John Wiley & Sons。
从2001年起,承担研究生选修课"微细尺度流动与传热"的部分教学工作,本课程的目的在于使研究生了解国际传热界该研究热点的最新研究成果,培养学生的创新意识。
研究经历与获奖成果:
近年来,作为负责人承担国家重点基础研究与发展规划项目(973)“高效节能的关键科学问题(G2000026300)”的课题1“传递过程强化与控制的性理论(G2000026301)”、国家自然科学基金项目“用分子动力学方法研究超常条件下的导热系数和导热过程”和“电介质纳米薄膜导热系数的分子动力学模拟”的研究,并作为主要骨干参加了国家自然科学基金重大项目“航天技术和信息器件中的微细尺度传热(No. 59995550)”之课题2“航天技术中的特殊传热问题研究(No.59995550-2)”的研究。
主要获奖成果:
热流体工程中的热阻力、热绕流、热驱动和热稳定性,获1994年度国家教委科技进步一等奖,1995年度国家自然科学三等奖;
基于场协同理论的传热强化技术及其应用,获2003年度教育部科技进步一等奖,2004年度国家科技进步二等奖。
主要研究方向及目前承担的课题:
传热强化的理论与技术;微细尺度流动与传热。
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2000年以来发表的学术论文:
1. Wei Wang, Zhi-Xin Li, Zeng-Yuan Guo, Numerical simulation of Micro Flow-Through PCR Chip, Microscale Thermophysical Engineering, 2005,9(3):281-293
2. Moran Wang, Zhixin Li. Monte Carlo simulations of dense gas flow and heat transfer in micro- and nano-channels, Science in China Ser.E, Engineering & Materials Science, 2005, 48(3):317-325;王沫然,李志信,微纳通道内稠密气体流动和换热的Monte Carlo模拟,中国科学,E辑,2005,35(7):708-716
3. Meng, Ji-An; Liang, Xin-Gang; Li, Zhi-Xin,Field synergy optimization and enhanced heat transfer by multi-longitudinal vortexes flow in tube, Int. J Heat and mass Transfer, 48(2005), 3331-3337
4. Wei Wang, Zhi-Xin Li, Rong Luo, Shu-Hai Lü , Ai-Dong Xu, and Yong-Jun Yang,Droplet-based Micro Oscillating-flow PCR Chip,Journal of Micromechanics and Microengineering,15(2005):1369-1377
5. Meng, Ji-An, Chen, Ze-Jing; Li, Zhi-Xin, Guo Zeng-Yuan, Field-Coordination Analysis and Numerical Study on Turbulent Convective Heat Transfer Enhancement, J. of Enhanced Heat Transfer, 2005, 12(1): pp.73-83
6. Meng, Ji-An; Liang, Xin-Gang; Chen, Ze-Jing; Li, Zhi-Xin,Experimental study on convective heat transfer in alternating elliptical axis tubes,Experimental Thermal and Fluid Science,2005,29(4)pp. 457-465
7. Meng JA, Liang XG, Li ZX, Guo ZY,Numerical study on low Reynolds number convection in alternate elliptical axis tube,JOURNAL OF ENHANCED HEAT TRANSFER 11 (4): 307-313 OCT-DEC 2004
8. MR Wang, ZX Li, Numerical Simulations on Performance of MEMS-Based Nozzles at Moderate or Low Temperatures, Microfluidics and Nanofluidics, 2004, vol. 1, No1, pp. 62-70
9. MR Wang, ZX Li, Simulations for Gas Flows in Microgeometries Using the Direct Simulation Monte Carlo Method, Int. J of heat and Fluid Flow, 2004, 25(6):975-985
10. JC Yu, ZX Li, TS Zhao, An analytical study of pulsating laminar heat convection in a circular tube with constant heat flux, Int. J Heat and mass Transfer, Vol.47, No.24, Nov. 2004, pp.5297-5301
11. MR Wang, ZX Li, Micro- and nanoscale non-ideal gas poiseuille flows in a consistent Boltzmann algorithm model,Journal of Micromechanics and Microengineering 14 (7): 1057-1063 JUL 2004
12. MR Wang, ZX Li, Failure analysis of the molecular block model for the direct simulation Monte Carlo method, Physics of Fluids,16 (6): 2122-2125 ,2004
13. Xia ZZ, Cheng XG, Li ZX, Guo ZY, Bionic optimization of heat transport paths for heat conduction problems, Journal of Enhanced Heat Transfer 11 (2): 119-131 APR-JUN 2004
14. ZX Li, MR Wang, XB Yao, ZY Guo,Pumping Mechanism of Thermally Driven Phase Transition Micropump,Microscale Thermophysical Engineering, 2004,8(1):31-41
15. MR Wang, ZX Li, Nonideal gas flow and heat transfer in micro- and nanochannels using the direct simulation Monte Carlo method, Physical Review E, 2003, 68(4):046704
16. MR Wang, ZX Li. Similarity of Gas Flow for Different Scales. Sci in China (Series E), 2003, 46(6) : 661~670
17. XB Luo, ZX Li, ZY Guo, YJ Yang, Study on linearity of a micromachined convective accelerometer, MicroElectron Engineering, 2003, 65(1-2): 87-101
18. ZY Guo, ZX Li, Size effect on microscale single-phase flow and heat transfer, Int J Heat Mass Transfer, 2003, 46: 149-159
19. ZY Guo, ZX Li, Size effect on single-phase channel flow and heat transfer at microscale, Int. J. Heat and Fluid Flow, 24(2003)284-298
20. XG Cheng, ZX Li, ZY Guo, Constructs of the highly effective heat transport paths by bionic optimization, Sciences in China (Series E), 2003(3): 296-302, 程新广,李志信,过增元,基于仿生优化的高效导热通道的构造,中国科学E辑,2003,33(3):251-2562.
21. ZX Li, DX Du, ZY Guo, Experimental study on flow characteristics of liquid in circular microtubes, Microscale Thermophysical Engineering, 2003,7(3): 253-265
22. 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
23. Z.Y.Guo, S.Q.Zhou, Z.X.Li, L.G.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
24. X.B.Luo, Z.X.Li, Z.Y.Guo, Y.J.Yang, Thermal optimization on micromachined convective accelerometer, Heat and Mass transfer, 2002, 38(7-8), 705-712
25. W. Wang, Z.X.Li, Z.Y.Guo, Analysis of thermal cycling in micro-PCR chip, International Journal of Nonlinear Sciences and Numerical Simulation, 2002, 3:233-236
26. N. Li, Z.X.Li, Relative importance of natural convection and surface radiation in a square enclosure, International Journal of Nonlinear Sciences and Numerical Simulation, 2002, 3 :613-616
27. M.R.Wang, Z.X.Li, Z.J.Chen, The pumping effect of phase transformation in a microtube, International Journal of Nonlinear Sciences and Numerical Simulation, 2002, 3: 565-568
28. Z.X.Li, M.R.Wang, L.Y.Tan, Experimental investigation on phase transformation type micropump, Chinese Science Bulletin,2002, 47(6), pp.518-522;李志信,王沫然,谭立彦,相变型热驱动微泵泵送特性的实验,科学通报,2001年,vol.46, no.22, pp.1927-1930
29. S. Wang, Z.Y. Guo, Z.X. Li, Heat transfer enhancement by using metallic filament insert in channel flow, Int. J. Heat ans Mass Transfer, vol.44 (2001), pp.1373-1378
30. X.B.Luo, Y.J.Yang, F.Zheng, Z.X.Li, Z.Y.Guo, An optimized micromachined convective accelerometer with no proof mass, J. of Micromechanics and Microengineering, 2001,11(5):504-408
31. X. L. Feng, Z. X. Li, Z. Y. Guo. Size Effect of Lattice Thermal Conductivity across Nanoscale Thin Films by Molecular Dynamics Simulations. Chinese Physics Letters. Vol.18, No.3, 2001, pp.416-418.
32. Feng X L, Li Z X, Liang X G, Guo Z Y. Molecular dynamics study on thermal conductivity of nanoscale thin films. Chinese Science Bulletin, 2001, 46(7): 604~607;冯晓利,李志信,梁新刚,过增元,纳米薄膜导热系数的分子动力学模拟,科学通报,第45卷第19期,2000,pp2113-2117
33. Du Dongxing, Li Zhixin, Guo Zengyuan, Friction resistance for gas flow in smooth microtubes, Science in China (Series E), vol.43, No. 2, April 2000, pp.171-177;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), vol. 30, No. 2, 2000年4月, pp.173-178
34. X. L. Feng, Z. X. Li, Z. Y. Guo. Monte Carlo Simulation of Thermodynamic Properties for Two-dimensional Lennard- Jones Fluids. Chinese Science Bulletin. Vol. 45, 2000, pp2004-2009;冯晓利,李志信,过增元.二维Lennard-Jones系统热力学性质的Monte Carlo模拟.科学通报.第45卷第7期,2000,775-780.
35. 俞接成,李志信,环形内肋片圆管层流脉冲流动强化对流换热数值分析, 清华大学学报(自然科学版),2005,45(8):1091-1094
36. 王增辉,李志信,硅纳米薄膜法向热导率的进一步分析,工程热物理学报,2005,26(S1):179-182
37. 薛辉,王玮,李志信,过增元,自然对流型PCR芯片的热分析与设计,工程热物理学报,2005,26(S1):140-142
38. 孟继安,李志信,过增元,不连续双斜向内肋强化换热管效能,化工学报,2005,56(6):995-998
39. 孟继安,过增元,李志信,应用流场协同理论的多纵向涡强化换热管,动力工程,2005,25(3):404-407
40. 孟继安,梁新刚,李志信,多纵向涡对管内湍流换热特性影响的数值分析,工程热物理学报,2005年5月,26(3):498-500
41. 王玮,王海滨,李志信,过增元,硅对PCR过程的拟制作用研究,中国生物工程杂志,2005,25(3):69-73
42. 俞接成,李志信,圆管层流脉冲流动对流换热数值分析,工程热物理学报,2005年3月,26(2): 319-320
43. 隋晓峰,孟继安,陈泽敬,李志信,螺旋内肋管内对流换热的三维数值模拟,工程热物理学报,2005年3月,26(2):292-294
44. 王沫然,李志信,微尺度气体滑动轴承的Monte Carlo模拟与性能分析,摩擦学学报,2005年1月,25(1):55-60
45. 俞接成,李志信,平板通道振荡流动强化轴向导热的数值研究,工程热物理学报,2005年1月,26(1): 131-133
46. Wang MR, Li ZX, Valveless thermally-driven phase-change micropump, Tsinghua Science and Technology, 2004, 9(6):686-693
47. 程新广,李志信,过增元,热传导中的变分原理,工程热物理学报, 2004年5月,25(3):457-459
48. 王玮,李志信,过增元,微腔型PCR芯片的多体系集总热容法分析,工程热物理学报, 2004年3月,25(2):308-310
49. 王沫然,王金库,李志信,DSMC方法的压力边界条件实现,计算物理,2004,21(4):316-320
50. 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
51. 王沫然,李志信,微通道内气体流动的三维效应,工程热物理学报, 2004, 25(5):840-842
52. 肖鹏,李志信,单晶硅纳米薄膜面向导热MD研究的探讨,工程热物理学报, 2004, 25(S1):164-166
53. 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): pp. 846-848
54. 王玮,李志信,过增元,粗糙表面对微尺度流动影响的数值分析,工程热物理学报, 2003年,24(1):pp.85-87
55. 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
56. 孟继安 陈泽敬 李志信 过增元,管内湍流换热的场协同分析及换热强化, 工程热物理学报,2003, 24(4): pp.652-654
57. 肖鹏, 李志信. 单晶硅纳米簿膜面向热导率分子动力学研究. 工程热物理学报, 2003, 24(6): 1019~1021
58. 刘征, 陈泽敬, 孟继安, 李志信, 异形管管内强化换热性能的测试, 工程热物理学报, 2003, 24(5): pp. 831-833
59. 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
60. 杨荔,李志信,扭曲椭圆管层流换热的数值研究,工程力学,2003, 20(5):144-148
61. 王沫然,陈泽敬,李志信,微喷管内流动和换热的数值模拟与分析,微纳电子技术,2003,第7/8期,pp.61-64
62. 王沫然,陈泽敬,李志信,微气体流量计的模拟与优化,微纳电子技术,2003, 第7/8期,pp.65-68
63. 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, 第13卷第第15期,pp.1261-1263
64. 李娜,过增元,李志信,方腔自然对流中的尺度效应,清华大学学报,2002年11月,42(11),pp.1508-1510,1514
65. 王沫然,李志信,基于MEMS的流体机械研究进展,流体机械,2002年,第4期,pp.23-28
66. 王沫然,李志信,基于MEMS的微泵研究进展,传感器技术, 2002, 第21卷第6期, pp.59-61
67. 王沫然,李志信,微尺度热科学及其在MEMS中的应用,仪表技术与传感器,2002年第7期,pp.1-4
68. 王沫然,李志信,谭立彦,相变型热驱动微泵的泵送机理研究,机械科学与技术,2002, 第21卷第6期,pp.966-968
69. 孟继安,李志信,过增元,魏澍,螺旋扭曲椭圆管层流换热与流阻特性模拟分析,工程热物理学报,第23卷,增刊,2002, pp.117-120
70. 肖 鹏,冯晓利,李志信. 单晶硅薄膜法向热导率分子动力学研究. 工程热物理学报. 2002(23): 724~726
71. 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
72. 冯晓利, 李志信, 过增元. 导热系数的分子动力学模拟研究及相关问题的探讨. 工程热物理学报, 2001, 22(2): 195~198
73. 冯晓利,李志信,过增元,肖鹏.二维Lennard-Jones系统气/液相变的Monte Carlo模拟研究.清华大学学报(自然科学版).第41卷第2期,2001,pp.84-87.
74. 冯晓利,李志信,过增元.电介质薄膜导热系数的尺寸效应.清华大学学报(自然科学版),第41卷第8期,2001,pp.83-86
75. 冯晓利, 李志信, 肖鹏, 过增元. 电介质固体薄膜中的稳态导热与法向导热的尺寸效应. 西安交通大学学报, 2001年第11期, pp.1180-1183
76. 李志信,罗小兵,过增元,MEMS技术的现状及发展趋势,传感器技术,2001, 20(9): pp.58-60
77. 罗小兵,李志信,过增元,压电驱动合成喷的设计及分析,功能材料与器件学报,Vol. 7. No.2, 2001年6月,pp.116-120
78. 李志信,罗小兵,过增元,MEMS在惯性测量中的应用,传感器技术,第20卷第7期,2001年,pp.58-60
79. 罗小兵,李志信,过增元,不可压缩合成喷流场的数值模拟,工程热物理学报,第22卷增刊,2001年6月,pp.56-58
80. 王沫然,陈泽敬,李志信,微型拉法尔喷管内气体流动的数值模拟,压电与声光,第23卷第5期增刊,2001,pp.207-209
81. 杜东兴, 李志信, 过增元, 岳 敏,微细光滑管内可压缩流动换热特性的数值研究, 清华大学学报(自然科学版), 第40卷第11期, 2000年11月, pp.19-22
82. 王崧,李志信,过增元,纤毛肋强化管内对流换热,清华大学学报,2000,vol.40, No.4, pp.55-57
83. 罗小兵,李志信,过增元,合成喷压电驱动器谐振基频的分析,压电与声光,2000年,Vol.22 (4), pp. 240-243
84. 罗小兵,李志信,过增元,合成喷形成的机理分析,清华大学学报,2000年,Vol.40 (12), pp.86-89
85. 罗小兵,李志信,过增元,一种流体驱动器—合成喷驱动器,仪器仪表学报,2000年Vol. 21 (5), pp.504
86. Moran Wang, Zhixin Li.Gases mixing in microchannels using DSMC, The 3rd International Conference of Minichannels and Microchannels, Toronto, Canada, June 13-15, 2005, Paper No. ICMM2005-75133
87. Lan Xudong, Li Zhixin, Wang Moran, Similarity of microscale and rarefied gas flows, The 3rd International Conference of Minichannels and Microchannels, Toronto, Canada, June 13-15, 2005, Paper No. ICMM2005-75133
88. MR Wang, ZX Li, Performance predictions of mems-based nozzles at moderate or low temperatures, 2nd Int Conf on Microchannels and Minichannels, Rochester, NY, USA, 2004
89. Y. Meng, W. Wang, JC Min, ZX Li, Experimental study of wall heat conduction effects on convection in mini-tube, 6th Int. Symp. on Heat Transfer, Beijing
90. W Wang, ZX Li, YJ Yang, ZY Guo, Droplet based micro oscillating flow-through PCR chip, 17th IEEE International Conference on Micro Electro Mechanical Systems (MEMS2004), Maastricht, the Netherlands, January 25-29, 2004, 280-283.
91. MR Wang, ZX Li. Gas Flow and Heat Transfer in Microchannels with Bends Using DSMC. International Conference in heat transfer enhancement and energy conservation. Guangzhou, China, Jan., 2004
92. XG Cheng, ZX Li, ZY Guo. Further study on the bionic heat conduction optimization. 3rd International Symposium on Heat Transfer Enhancement and Energy Conservation. Guangzhou, China, Jan., 2004
93. JA Meng, ZX Li, ZY Guo. Optimization of flow field for laminar convection heat transfer. International Conference in heat transfer enhancement and energy conservation , Guangzhou, China, Jan., 2004
94. Meng JA, Liang XG, Li ZX, Guo ZY, Numerical study on low Reynolds number heat transfer in alternating elliptical axis tube, International Conference in heat transfer enhancement and energy conservation , Guangzhou, China, Jan., 2004
95. JC Yu, ZX Li, Heat transfer of pulsating flow in parallel plate channel with constant heat flux, International Conference in heat transfer enhancement and energy conservation, Guangzhou, China, Jan., 2004
96. Wei Wang, Zhi-Xin Li, Thermal design and experiments of droplet-based micro oscillating-flow pcr chip, Kyoto-Seoul National-Tsinghua University Thermal Engineering Conference, Kyoto, Japan, Dec. 2004
97. Peng Xiao, Zhi-Xin Li, Molecular Dynamics Simulation on Thermal Conductivity of Single-Crystal Silicon Thin Film at Nanoscale, Kyoto-Seoul National-Tsinghua University Thermal Engineering Conference, Kyoto, Japan, Dec. 2004
98. ZX Li, Single phase flow and heat transfer at microscale, Proc. of 1st Hangyang-Tsinghua Joint Symposium on mechanical Engineering, Jan. 16, 2004, Seoul, Korea, pp. 63-69
99. ZX Li, ZY Guo, Some flow and thermal phenomena at microscale, keynote, 1st Int Conf on Microchannels and Minichannels, Rochester, NY, USA,2003,pp.77-92
100. ZX LI, W Wang, ZY Guo, Effects of axial heat conduction in the wall on convection in microtubes, 1st Int Conf on Microchannels and Minichannels, Rochester, NY, USA, pp.327-333
101. W Wang, ZX Li, ZY Guo, Numerical simulation on micro flow-through PCR chip, 1st Int Conf on Microchannels and Minichannels, Rochester, NY, USA, pp.425-431
102. Z-Y Guo, Z-X Li, W-Q Tao, Y-L He, Principle of field coordinated enhancement of single phase thermal convection, keynote, 4th Int Conf on Compact Heat Exchanger and Industrial Application, Crete, 2003
103. Z.Y.Guo, Z.X.Li, Size effect on microscale single-phase flow and heat transfer, Proceedings of the twelfth International heat transfer conference, Grenoble, France, 2002, keynote, Heat Transfer 2002, Vol.1, pp. 15-26
104. Z.Z.Xia, Z.X.Li, Z.Y.Guo, Heat conduction optimization: high-conductivity constructs based on the principle biological evolution. Heat transfer 2002, proceedings of the twelfth International heat transfer conference, Grenoble, France, 2002, Vol. 2: 27-32
105. X.B.Luo, Z.X.Li, Z.Y.Guo, Size effect on free convection in a two-dimensional square cavity (abstract), ICHMT Int. Symp. on Micro/Nanoscale Energy Conversion and Transport, Antalya, Turkey, 2002, pp.132-134
106. X.B.Yao, M.R.Wang, Z.X.Li, Z.Y.Guo, Pumping mechanism of thermally driven phase transformation type micropump (abstract), ICHMT Int. Symp. on Micro/Nanoscale Energy Conversion and Transport, Antalya, Turkey, 2002, pp.89-91
107. M.R.Wang, Z.X.Li, Valve-less thermally-driven phase-change micropump, Proc. of Pacific rim workshop on transducers and micro/nano technologies, Xiamen, China, 2002, pp.413-416
108. Z.X. Li and X.G. Cheng, Bionic optimization of heat conduction problems, Proc. of 2nd Kyoto-Seoul National-Tsinghua University Thermal Engineering Conference, Dec. 3-5, 2002, Kyoto, Japan, pp. 25-30
109. Zhi-Xin Li, Ming Yi, Xiao-Bing Luo, Experimental investigation on synthetic jet, Three Asia Universities Conference on Thermal Engineering, Kyoto, Japan, Sept. 26-28, 2001
110. Feng X L, Li Z X, Liang X G, Guo Z Y. Molecular dynamics simulation of thermal conductivity across nanoscale thin silicon films. The 6th International Asian Thermophysical Properties Conference. Assam, India. October 8-11, 2001
111. Li Zhixin, Du Dongxing, Guo Zengyuan, Experimental study on flow characteristics of liquid in circular microtubes, Heat transfer and transport phenomena in microscale, Banff, Canada, Oct. 15-20, 2000, pp.162-167
112. Zhi-Xin Li, Ming Yi, Xiao-Bing Luo, Numerical investigation on the flow field of synthetic jet, Second Joint Conference of Tsinghua University-Kyoto University on Energy and Environment, Beijing, Nov.,2000, pp.7-12
113. Zai-Zhong Xia, Zhi-Xin Li, Zeng-Yuan Guo, Study on convective heat transfer in fiber-finned ducts based on the concept of equivalent thermal conductivity”, Compact heat exchangers and enhancement technology for the process industries-2001, Procs. 3rd Int. Conf. On Compact Heat Exchanger and Enhancement Technology for the Process Industries, Davos, Switzerland, July 1-6,2001,pp. 89-95
114. Zeng-yuan Guo, Zai-zhong Xia and Zhi-xin Li, Novel approaches to optimization of heat conduction and convection, keynote paper, International Conference on Energy Conversion and Application (ICECA’2001), Wuhan, June, 2001, pp.3-14)
115. Z. X. Li, D. X. Du, Z. Y. Guo, Characteristics of frictional resistance for gas flow in microtubes, Proc. of Symp. On Energy Engineering in the 21st Century, Hong Kong, 2000, vol. 2, pp.658-664
116. Du Dongxing, Li Zhixin, Guo Zengyuan, Numerical investigation on the effect of roughness on the flow resistance for incompressible fluid flow in microtubes, Heat transfer science and technology 2000, Edited by Bu-Xuan Wang, Higher Education Press , pp. 321-326
117. X. L. Feng, Z. X. Li, Z. Y. Guo. NpT-ensemble Monte Carlo Study on Thermodynamic Properties of Lennard-Jones Systems. Heat Transfer Science and Technology 2000. Edited by Bu-Xuan Wang, , Higher Education Press, 341-345.
118. Zai-Zhong Xia, Zhi-Xin Li, Zeng-Yuan Guo, A simplified model for analysis on flow and heat transfer in fiber-finned channel, Heat Transfer Science and Technology 2000. Edited by Bu-Xuan Wang, , Higher Education Press, 247-252.
119. Xiao-Li Feng, Zhi-Xin Li, and Zeng-Yuan Guo Lattice thermal conductivity size effect and temperature dependency in nano-films by molecular dynamics, 2rd Joint conference of Tsinghua and Kyoto Universities on Energy and Environment, Beijing, Nov. 13-14, 2000, pp.58-65 |
