(1.)Basic Information

(7.)Contact

 

Mei Lin, PHD Superviser

 
Address: No.28, Xianning West Street, Xi'an, 710049, China
Office: Room 165, DongThree Building, XingQing Campus
Phone & Fax: +86-29-8266-7936
E-mail: janeylinm@mail.xjtu.edu.cn

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(3.)Education

Bachelor, Fluid Machinery, Xi'an Jiaotong University, 1991

Master, Business Administration, Xi'an Jiaotong University, 2002

(5.)Scientific Research

  

1 High-speed train ventilation and heat exchange system
2 Phase change cooling of high power electronic devices
3 Flow mixing in ships and offshore platforms
4 Enhanced heat transfer technology for high-efficient heat exchangers
5 Flow and heat transfer in microchannel

 

(2.)Positions

 

Book
    EmergingTopics in Heat Transfer: Enhancement and Heat Exchangers (Developments in Heat Transfer) Chapter 6 WIT Press/omputational MechanicsISBN-    10:1845648188,10/31/13,

 

Paper

 

1.      J. He, X.Y. Wang, M. Lin, Coherent Structure of Flow Based on Denoised Signals in T-junction Ducts with Vertical Blades, Entropy, 2019, 21: 206.
2.      M. Lin, B. Su, S.C. Li, Q.W. Wang, Numerical study of flow and mixing characteristics in a T-junction under inflow pulsation. EnergyProcedia, 2019,158 : 5238-5244.
3.      S.C. Li, X.Y. Wang, J. He, M. Lin, H.K. Ke. Experimental study of flow structure characteristics for a T-junction duct with horizontal vanes, ASME J. Fluids Engineering, 2019,,141(11):111111.
4.      X.Y. Wang, J. He, B. Su, H. B. Ke. M. Lin, Y. T. Chen, Flow Structure of the entrance of a T-junction Duct without/with a Circular Cylinder, Journal of Turbulence, 2019, 20:6, 337-359.
5.      B. Su, Y.T. Yin, S.C. Li, Z.X. Guo, Q.W. Wang, M. Lin. Wavelet analysis on the turbulent flow structure of a T-junction,, International Journal of Heat and Fluid Flow, 2018, 73: 124-142.  
6.      Y.T.Yin, S.C.Li , L. B. Wang, M. Lin, Q.W. Wang, Force Analysis of a Circular Cylinder at Ununiformed Flow in a T Pipe Junction, Energies2018,11(4): 864.
7.      M. Lin, B. Su, S.C. Li, Y.T. Yin, Q.W. Wang, Y/T. Chen, Probability density function of velocity fluctuations in a rectangular T-junction duct. Journal of Turbulence, 2018,19(8) 621-646.
8.      M. Lin, Q. W. Wang, Z.X. Guo. Investigation of evaluation criterion of axial wall heat conduction under two thermal boundary conditions, Applied Energy, 20161621662-1669.
9.      B. Wu, Y.T. Yin, M. Lin, L. B. Wang, M. Zeng, Q.W. Wang. Mean pressure distributions around a circular cylinder in the branch of a T-junction with/without vanes. Applied Thermal Engineering, 2015,88:82-93.
10.   B. He, Y. D.Li , D.D.Ma , R.Gu, M.Lin. Study on particle charging characteristics with the low-speed mixed fluid under high electric field [J]. SCIENCE CHINA Physics, Mechanics & Astronomy. 2014, 57(9): 1689-1695.
11.   B. He, D.D.Ma, Y. D.Li , R.Gu, S.T. Li, M.Lin. Effects of high electric field on low-velocity gas-solid two-phase flow movement [J]. IEEE Transactions on Dielectrics and Electrical Insulation. 2014, (21): 1584-1591.
12.   M.Lin, Q.W.Wang, and Z.X.Guo. A simple method of predicting bulk temperature from wall temperature for laminar tube flow under uniform outside wall heat flux, Int. Com. In Heat Mass Transfer, 2012(39): 582-586.
13.   M. Lin, L. B. Wang, Q. W. Wang. Investigation of evaluation criterion of axial wall heat conduction in tube laminar flow and heat transferThe 6th International Conference on Applied Energy , ICAE2014-1141May30-June 2, 2014,Taibei, Taiwan.
14.   L.B. Wang Z. M. Lin, C. P. Liu,M. Lin.Numerical study of flow and heat transfer enhancement of circular tube bank fin heat exchanger with curved delta-winglet vortex generators. Applied Thermal Engineering, 2014.
15.    M. Lin, X. F. Xu, B. Wu, L. B. Wang, Q. W. Wang. Numerical simulation of turbulent flow on a high-speed crossflow blowing over array slots with weak injectionThe 7th International Conference on Applied Energy – ICAE2015-153March28-30, 2015Abu Dhabi, United Arab Erimates.
16.    Z.G.Sun, Y.Y.Liang, M.Lin, G.Xi. Experimental study on the effect of rotor/stator interaction with different number of stator blades, The 13th International Symposium on Unsteady Aerodynamics, Aeroacoustics and Aeroelasticity of Turbomachines, ISUAAAT13-S7-2, Sept 10-14,2012,Tokyo, Japan
17.   M. Lin, G.D. Chen, J.F. Yang, M. Zeng, Q. W. Wang. Heat transfer performance evaluation for internally finned tubes based on entransy dissipation extremum principle, International Forum on Frontier Theories of Thermal Science, December 18-20, 2011, Tsinghua University, Beijing, China (Invited Speaker)
18.   M. Lin, L. Tian, Q.W. Wang , Laminar heat transfer characteristics of internally finned tube with sinusoidal wavy fin, Heat Mass Transfer, 47(6):641-653, 2011.
19.   Q. W. Wang, M. Lin, M. Zeng, Effect of lateral fin profiles on turbulent flow and heat transfer performance of internally finned tubes, Applied Thermal Engineering, 2009(29): 3006–3013.
20.   Q. W. Wang, M. Lin, M. Zeng, L. Tian. Computational analysis of heat transfer and pressure drop performance for internally finned tubes with three different longitudinal wavy fins, Heat and Mass Transfer, 2008(45): 147-156.
21.   Q. W. Wang, M. Lin, M. Zeng. Effect of blocked core-tube diameter on heat transfer Performance of internally longitudinal finned tubes, Heat Transfer Engineering, 2008(9):107–115.
22.   Q. W. Wang , M. Lin, M. Zeng, L. Tian, Investigation of turbulent flow and heat transfer in periodic wavy channel of internally finned tube with blocked core, ASME J Heat Transfer, 2008(130): article number: 061801.
23.   M. Zeng, L. H. Tang, M. Lin, Q. W. Wang. Optimization of heat exchangers with vortex-generator fin by Taguchi method, Applied thermal engineering, 2010(30): 1775-1783.
24.   Q.W. Wang, D.J. Zhang, M. Zeng, M. Lin, L. H. Tang, CFD simulation on a thermal power plant with air-cooled heat exchanger system in north China, Engineering Computations, 2008(25): 342-365.
25.   F. Wu, M. Lin, L. Tian, Q.W. Wang, L. Q. Luo, Convective heat transfer and pressure drop of a tube with internal longitudinal fins, Heat Transfer- Asian Research, 2007(36): 57–65.