电话: 029-82665581
传真: +86-29-82663502
邮编: 710049
email: zengmin@mail.xjtu.edu.cn
地址: 陕西省西安市咸宁西路28号
新一代传热技术与新型换热设备研究组
《A HEAT TRANSFER TEXTBOOK: A free
electronic textbook》 下载1 下载2 本地下载
English - 曾 敏
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2009-10-27
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2009-10-19
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2008-11-04
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2008-07-05
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2008-06-15
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Min Zeng PhD
zengmin@mail.xjtu.edu.cn
(1976-11-10),Hubei Province, P.R. China
Received his B.S. (1999) and his Ph. D (2004) in Thermophysical Engineering
from the Xi’an Jiaotong University, China
2006,01– present
Working as lecturer. Research topic “Enhencment of single-phase and boiling heat transfer in narrow gap rectangular channel using longitudinal vortex generator”, which is supported by NSFC (No. 50576089); “Two phase flow and heat transfer in a channel filled with porous media”, which is supported by National Defense Science and Technology Key Laboratory Foundation of China, Center of Thermal and Fluid, Xi’an Jiaotong University.
2004,10 – 2005,12
Working as lecturer. Research topic “Experimental and numerical study of heat transfer and pressure drop for shell-and-tube heat exchangers with continuous helical baffles”, which was supported by National Defense Science and Technology Key Laboratory Foundation of China, “Development of novel fin-tube heat exchangers”, which was supported by Xi’an Dazhong Enterprise,Center of Thermal and Fluid, Xi’an Jiaotong University.
2001,01– 2004,09
Working on my Ph.D. thesis project “Experimental and numerical study of flow and heat transfer characteristics in corrugated tubes”, which was supported by the National Key Project of Fundamental R & D of China (Grant No. 2000026303), Center of Thermal and Fluid, Xi’an Jiaotong University.
Working as lecturer. Research topic “Enhencment of single-phase and boiling heat transfer in narrow gap rectangular channel using longitudinal vortex generator”, which is supported by NSFC (No. 50576089); “Two phase flow and heat transfer in a channel filled with porous media”, which is supported by National Defense Science and Technology Key Laboratory Foundation of China, Center of Thermal and Fluid, Xi’an Jiaotong University.
2004,10 – 2005,12
Working as lecturer. Research topic “Experimental and numerical study of heat transfer and pressure drop for shell-and-tube heat exchangers with continuous helical baffles”, which was supported by National Defense Science and Technology Key Laboratory Foundation of China, “Development of novel fin-tube heat exchangers”, which was supported by Xi’an Dazhong Enterprise,Center of Thermal and Fluid, Xi’an Jiaotong University.
2001,01– 2004,09
Working on my Ph.D. thesis project “Experimental and numerical study of flow and heat transfer characteristics in corrugated tubes”, which was supported by the National Key Project of Fundamental R & D of China (Grant No. 2000026303), Center of Thermal and Fluid, Xi’an Jiaotong University.
May 2005 – June 2005
Teaching the course-Fundamentals and Equipments for Heat and Mass Transfer (for under -graduate)
Sept. 2005 – Dec. 2005
Teaching the course-Heat Transfer (for undergraduate)
Feb. 2006 – Apr. 2006
Teaching the course-Fundamentals for Thermal Engineering (for undergraduate)
May 2006 – June 2006
Teaching the course-Fundamentals and Equipments for Heat and Mass Transfer (for under -graduate)
May 2006 – June 2006
Teaching the course-Heat Transfer (for undergraduate)
Research Interests
Heat and Mass Transfer related to Engineering Fields
Heat and Mass Transfer in Porous Media
Computational Fluid Dynamics and Numerical Heat Transfer
Publications
[1] Wang Qiu-wang, Lin Mei, Zeng Min. Effect of blocked core-tube diameter on heat transfer performance of internally longitudinal finned tubes, Heat Transfer Engineering (Accepted)
[2] Xie Gong-Nan, Wang Qiu-Wang, Zeng Min, Luo Lai-Qin. Numerical investigation of heat transfer and fluid flow characteristics inside a wavy channel, Heat and Mass Transfer (Accepted)
[3] Xie Gong-Nan, Wang Qiu-Wang, Zeng Min, Luo Lai-Qin. Heat transfer analysis for shell-and-tube heat exchangers with experimental data by artificial neural networks approach, Applied Thermal Engineering (Accepted)
[4] Zeng M. , Tao W.Q. Numerical verification of the field synergy principle for turbulent flow. Journal of Enhanced Heat Transfer 2004,11(4):453-459
[5] Zeng M.,Tao W.Q. A comparison study of the convergence characteristics for four variants of SIMPLE–family at fine grids. Engineering Computations, 2003,v 20, n 3 p.320-340
[6] D.J. Zhang, Q.W. Wang, M. Zeng, L.Q. Luo, F. Wu and Z.P. Zheng. Optimization simulation of gas inlet configuration for 100kW microturbine recuperator, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90256
[7] G.N Xie, Q.Y. Chen, M. Zeng, L.Q. Luo, Q.W. Wang. Performance design of heat exchangers with/without fins on each side of tube, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90260
[8] H.X. Liang, G.N. Xie, M. Zeng, Q.W. Wang, L.Q. Luo and Z.P. Feng. Application of genetic algorithms to performance optimization of microturbine recuperator, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90366
[9] Suo XN, Zeng M, Wang QW. The thermo entry length study of gaseous flow in micro-channels in slip flow regime. International Conference On Micro Energy Systems. 11-14 September 2005, Sanya, China
[10] Xie GN, Zeng M, Luo LQ, Li DL, Wang QW. Prediction of heat transfer rates for shell-and tube heat exchangers by artificial neural networks approach, Proceedings of the second international symposium on Thermal Science and Technology, Beijing, Oct. 23-25, 2005, 278-283
[11] D.J. Zhang, M. Zeng, L.Q. Luo, Q.W. Wang, Numerical Simulation of Flow performance in Shell Side of Shell-and-Tube Heat Exchanger with discontinuous Helical Baffles, Proceedings of the second international symposium on Thermal Science and Technology, Beijing, China, October 23~25, 2005,181-185
[12] Zeng Min, Shi Lei, Tao Wenquan. Experimental and numerical study of laminar flow and heat transfer characteristics in corrugated tubes, Journal of Engineering Thermophysics, 2006,vol.27, No.1, 142-144 (In Chinese)
[13] Zeng Min, Peng Bo-Tao, Yu Peng-Qing, et al. Experimental study of heat transfer and flow resistance characteristics for shell-and-tube heat exchangers with continuous helical baffles, Nuclear Power Engineering, 2006, vol.27 n. suppl. 1, 102-106 (In Chinese)
[14] Chen Qiuyang, Zeng Min, Wang Ling et al. Effect of Mounted Longitudinal Vortex Generators on Convective Heat Transfer in Rectangular Narrow Channel, Journal of Xi’an Jiaotong University, 2006,vol.40, no.9, 1010-1013 (In Chinese)
[15] Xie Gong-Nan, Wang Qiu-Wang, Zeng Min et al. Heat transfer enhancement inside converging-diverging wavy channel by pulsating flow, Journal of Chemical Engineering of Chinese Universities, 2006, vol.20, n 1, 31-35 (In Chinese)
[16] Wang Qiuwang, Luo Laiqin, Zeng Min et al. Shell-side heat transfer and pressure drop of shell-and-tube heat exchangers with overlap helical baffles, Journal of Chemical Industry and Engineering,2005, v 56, n 4, 598-601 (In Chinese)
[17] Zeng Min, Tao Wenquan. Convergence Characteristics of the SIMPLE Series of Algorithms in Fine Grid, Journal of Thermal Science and Technology, 2003, v2, n1, p90-93 (In Chinese)
[18] Zeng Min, Wang Qiuwang, Qu Zhiguo et al. Experimental study on the pressure drop and heat transfer characteristics in corrugated tubes, Journal of Xi’an Jiaotong University, 2002,v 36, n 3, p 237-240 (In Chinese)
[19] Wu Feng, Zeng Min, Wang Qiuwang, et al. Effect of aspect ratio on heat transfer and fluid fow in regenerative cooling channel of liquid rocket engine thrust chamber, Journal of Aerospace Power, (In Chinese) (Accepted)
[20] Wang Lin, Chen Qiuyang, Zeng Min et al. Heat transfer enhancement in rectangular narrow channel with longitudinal vortex generators, Journal of Chemical Industry and Engineering, (In Chinese) (Accepted)
[21] Xie Gong-Nan, Wang Qiu-Wang, Zeng Min et al. Journal of Computational Physics, (In Chinese) (Accepted)
