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Yuwen Zhang

Professor

Fellow ASME and Associate Fellow AIAA

Mechanical and Aerospace Engineering
University of Missouri
Columbia, MO 65211, USA
Tel: (573) 884-6936, Fax: (573) 884-5090

 Email: zhangyu@missouri.edu

 

 

Publications

 

* = Corresponding author.

Accepted/In Press

106      Shao, W., and Zhang, Y.*, 2010, “Thermally-Induced Oscillatory Flow and Heat Transfer in an Oscillating Heat PipeJournal of Enhanced Heat Transfer (accepted). 

105.     Chen, T., and Zhang, Y.* “Two-Dimensional Modeling of Sintering of a Powder Layer on Top of Non-Porous Substrate,” Frontiers on Mechanical Engineering in China (accepted).

104.    Feng, Z.C., Chen, J. K., and, Zhang, Y., 2010, “Real-Time Solution of Heat Conduction in a Finite Slab for Inverse Analysis,” Internal Journal of Thermal Science (accepted).

103.    Damronglerd, P., and Zhang, Y.*, 2010, “Numerical Simulation of Melting in Porous Media via a Modified Temperature-Transforming Model,” AIAA Journal of Thermophysics and Heat Transfer (in press).

102.     Huang, J, Zhang, Y.*, Chen, J. K., and Yang, M., 2010, “Modeling of Ultrafast Phase Change Processes in a Thin Metal Film Irradiated by Femtosecond Laser Pulse Trains,” ASME Journal of Heat Transfer (accepted).

101.     Zhou, J., Zhang, Y.*, Chen, J. K., and Feng, Z.C., 2010, “Inverse Heat Conduction Using Measured Back Surface Temperature and Heat Flux,” AIAA Journal of Thermophysics and Heat Transfer (in press).

100.     Li, L., Zhang, Y.*, Ma, H. B., and Yang, M., 2010, “Molecular Dynamics Simulation of Effect of Liquid Layering around the Nanoparticle on the Enhanced Thermal Conductivity of NanofluidsJournal of Nanoparticle Research, DOI: 10.1007/s11051-009-9728-5 (in press).

99.       Zhang, Y.*, Damronglerd, P., and Yang, M., 2010, “Analysis of Infiltration, Solidification and Remelting of a Pure Metal in a Subcooled Porous Preform,” Heat Transfer Engineering, 31(8) (in press).

98.       Zhou, J., Zhang, Y.*, Chen, J. K., and Feng, Z.C., 2010, “Inverse Heat Conduction in Composites with Pyrolysis Effect and Temperature-Dependent Thermophysical Properties,” ASME Journal of Heat Transfer, 132(2).

97.      Zhou, J., Chen, J. K., and Zhang, Y., 2009, “Simulation of Laser-Induced Thermotherapy by a Dual Reciprocity Boundary Element Method with Dynamic Tissue PropertiesIEEE Transactions on Biomedical Engineering (in press).

2009 (14)

96.       Xu, J., Zhang, Y.*, and Ma, H. B., 2009, “Effect of Internal Wick Structure on Liquid-Vapor Oscillatory Flow and Heat Transfer in an Oscillating Heat Pipe,” ASME Journal of Heat Transfer, 131(12), 121012-1 – 121012-10.

95.       Zhang, Y.*, Li, L., Ma, H. B., and Yang, M., 2009, “Effect of Brownian and Thermophoretic Diffusions of Nanoparticles on Nonequilibrium Heat Conduction in a Nanofluid Layer with Periodic Heat FluxNumerical Heat Transfer, Part A, 56(4), pp. 325-341.

94.       Zhang, Y.*, 2009, “Generalized Dual-Phase Lag Bioheat Equations Based on Nonequilibrium Heat Transfer in Living Biological TissuesInternational Journal of Heat and Mass Transfer, 52(21-22), pp. 4829-4834.

93.       Huang, J., Zhang, Y.*, and Chen, J. K., 2009, “Ultrafast Solid-Liquid-Vapor Phase Change in a Thin Gold Film Irradiated by Multiple Femtosecond Laser PulsesInternational Journal of Heat and Mass Transfer, 52(13-14), pp. 3091-3100.

92.       Huang, J., Zhang, Y.*, and Chen, J. K., 2009, “Ultrafast Solid-Liquid-Vapor Phase Change of a Gold Film Induced by Pico- to Femtosecond LasersApplied Physics A: Materials Science & Processing, 95(3), pp. 643–653.

91.       Zhou, J., Zhang, Y.*, and Chen, J. K., 2009, “Numerical Simulation of Random Packing of Spherical Particles for Powder-Based Additive Manufacturing ASME J. Manufacturing Science and Engineering, 131(3), 031004-1 – 031008-8.

90.       Zhou, J., Zhang, Y.*, and Chen, J. K., 2009, “Numerical Simulation of Laser Irradiation to a Randomly Packed Bimodal Powder Bed International Journal of Heat and Mass Transfer, 52(13-14), pp. 3137-3146.

89.       Zhou, J., Zhang, Y.*, and Chen, J. K., 2009, “An Axisymmetric Dual-Phase-Lag Bioheat Transfer Model for Laser Heating of Living Tissues International Journal of Thermal Sciences, 48(8), pp. 1477-1485.

88.       Zhou, J., Chen, J. K., and Zhang, Y., 2009, “Dual-Phase-Lag Effects on Thermal Damage to Biological Tissues Caused by Laser IrradiationComputers in Biology and Medicine, 39(3), pp. 286-293.

87.       Xu, J., and, Zhang, Y.*, 2009, “Analysis of Heat Transfer during Liquid-Vapor Pulsating Flow in a U-Shaped Miniature ChannelJournal of Enhanced Heat Transfer, 16(4), pp. 367-385.

86.       Jiao, A., Zhang, Y.*, Ma, H. B., and Critser, J., 2009, “Effect of Lewis Number on Heat and Mass Transfer in Circular Tube with External Convective HeatingHeat and Mass Transfer, 45(5), pp. 591-598.

85.       Zhou, J., Zhang, Y.*, and Chen, J.K., 2009, “Effects of Large Blood Vessels on the Transient Propagation of Ultrafast Laser Pulse in Biological TissuesHeat and Mass Transfer, 45(5), pp. 527-535.

84.       Shi, Y., and Zhang, Y.*, 2009, “A Semi-Exact Solution for Solidification of a Binary Solution on a Cold Isothermal Surface below Eutectic TemperatureHeat Transfer Engineering, 30 (5), pp. 368-374.

83.       Xiao, B., and Zhang, Y.*, 2009, “Numerical Simulation of Pulsatile Turbulent Flow in Tapering Stenosed ArteriesInternational Journal of Numerical Methods for Heat & Fluid Flow, 19(5), pp. 561-573.

2008 (14)

82.       Zhang, Y.*, and Chen, J. K., 2008, “Ultrafast Melting and Resolidification of Gold Particle Irradiated by Pico- to Femtosecond LasersJournal of Applied Physics, 104, 054910.

Also selected for the Virtual Journal of Ultrafast Science, Vol. 7, No. 10, 2008.

81.       Shi, Y., and Zhang, Y.*, 2008, “Simulation of Random Packing of Spherical Particles with Different Size DistributionsApplied Physics A: Materials Science & Processing, 92(3), pp. 621-626.

80.       Li, L., Zhang, Y.*, Ma, H. B., and Yang, M., 2008, “An Investigation of Molecular Layering at the Liquid-Solid Interface in Nanofluids by Molecular Dynamics SimulationPhysics Letters A, 372(25), pp. 4541–4544.

79.       Zhang, Y.*, and Ma, H. B., 2008, “Nonequilibrium Heat Conduction in a Nanofluid Layer with Periodic Heat FluxInt. J. Heat Mass Transfer, 51 (19-20), pp. 4862-4874.

78.       Zhou, J., Zhang, Y.*, and Chen, J. K., 2008, “A Dual Reciprocity Boundary Element Method for Photothermal Interactions in Laser-Induced ThermotherapyInt. J. Heat Mass Transfer, 51 (15-16), pp. 3869-3881.

77.       Wang, S., and Zhang, Y.*, 2008, “Forced Convective Heat Transfer of Microencapsulated Phase Change Material Suspensions Flow in a Circular Tube Subject to External Convective HeatingJournal of Enhanced Heat Transfer, 15, pp. 171-181.

76.       Li, L., Yang, M., and Zhang, Y.*, 2008, “Numerical Study of Periodically Fully-Developed Convection in Channels with Periodically Grooved PartsInt. J. Heat Mass Transfer, Vol. 51, No. 11-12, pp. 3057-3065, 2008.

75.       Ma, H. B., Borgmeyer, B., Cheng, P., and Zhang, Y., 2008, “Heat Transport Capability in an Oscillating Heat PipeASME Journal of Heat Transfer, 130(8), pp. 081501-1–081501-7.

74.       Xiao, B., and Zhang, Y.*, 2008, “Numerical Simulation of Direct Metal Laser Sintering of Single-Component Powder on Top of Sintered Layers,” ASME J. Manufacturing Science and Engineering, 130(4), pp. 041002-1–041002-10.

73.       Zhang, Y.*, and Chen, J. K., 2008, “An Interfacial Tracking Method for Ultrashort Pulse Laser Melting and Resolidification of a Thin Metal Film,” ASME J. Heat Transfer, 130(6), pp. 062401-1 – 062401-10.

72.       Zhou, J., Zhang, Y.*, Chen, J.K., and Smith, D. E., 2008, “A Nonequilibrium Thermal Model for Rapid Heating and Pyrolysis of Organic Composites,” ASME Journal of Heat Transfer, 130(6), pp. 064501-1 – 064501-4.

71.       Zhou, J., Zhang, Y., and Chen, J. K., 2008, “Non-Fourier Heat Conduction Effect on Laser-Induced Thermal Damage in Biological Tissues Numerical Heat Transfer, Part A, 54(1), pp. 1-19.

70.       Zhang, Y., and Faghri, A., 2008, “Advances and Unresolved Issues in Pulsating Heat PipesHeat Transfer Engineering, 29(1), pp. 20-44.

69.       Zhou, J., Chen, J. K., and Zhang, Y., 2008 “Numerical Modeling of Transient Progression of Plasma Formation in Biological Tissues Induced by Short Laser PulsesApplied Physics B: Lasers and Optics, 90(1), pp. 141-148.

2007 (13)

68.       Shi, Y., Zhang, Y.*, and Konrad, C., 2007, “Solid-Liquid and Liquid-Vapor Phase Change Induced by a Nanosecond Laser in Selective Laser SinteringNanoscale and Microscale Thermophysical Engineering, 11(3-4), pp. 301-318.

67.       Xiao, B., and Zhang, Y.*, 2007, “Laser Sintering of Metal Powders on Top of Sintered Layers under Multiple-Line Laser ScanningJournal of Physics D: Applied Physics, 40(21), pp. 6725-6734. 

66.       Zhou, J., Chen, J. K., and Zhang, Y., 2007, “Theoretical Analysis of Thermal Damage in Biological Tissues Caused by Laser IrradiationMolecular & Cellular Biomechanics, 4(1), pp. 27-39.

65.       Zhang, Y.*, and Chen, J. K., 2007, “Melting and Resolidification of Gold Film Irradiated by Nano- to Femtosecond LasersApplied Physics A: Materials Science & Processing, 88(2), pp. 289-297.

64.       Zhou, J., Zhang, Y.*, and Chen, J. K., 2007, “Numerical Simulation of Compressible Gas Flow and Heat Transfer in a Microchannel Surrounded by Solid MediaInternational Journal of Heat and Fluid Flow, 28(6) pp. 1484-1491.

63.       Chen, T., and Zhang, Y.*, 2007, “Three-Dimensional Modeling of Laser Sintering of a Two-Component Metal Powder Layer on Top of Sintered Layers ASME J. Manufacturing Science and Engineering, 129(3), pp. 575-582.

62.       Xiao, B., and Zhang, Y.*, 2007, “Analysis of Melting of Alloy Powder Bed with Constant Heat FluxInternational Journal of Heat and Mass Transfer, 50(11-12), pp. 2161-2169.

61.       Konrad, C., Zhang, Y.*, and Shi, Y., 2007, “Melting and Resolidification of Subcooled Metal Powder Particle Subjected to Nanosecond Laser HeatingInternational Journal of Heat and Mass Transfer, 50(11-12), pp. 2236-2245.

60.       Chen, T., and Zhang, Y.*, 2007, “Thermal Modeling of Laser Sintering of Two-Component Metal Powder on Top of Sintered Layers via Multi-line ScanningApplied Physics A: Materials Science & Processing, 86(2), pp. 213-220.

59.       Damronglerd, P., and Zhang, Y.*, 2007, “Modified Temperature-Transforming Model for Convection-Controlled Melting,” AIAA J. Thermophysics and Heat Transfer, 21(1), pp. 203-208.

58.       Xiao, B., and Zhang, Y.*, 2007, “Marangoni and Buoyancy Effects on Direct Metal Laser Sintering with a Moving Laser BeamNumerical Heat Transfer, A, 51(7-8), pp. 715-733.

57.       Xiao, B., and Zhang, Y.*, 2007, “Analysis of Partial Melting in a Metal Powder Bed with Constant Heat FluxHeat Transfer Engineering, 28(5), pp. 472-483.

56.       Zhou, J., Yu, A., and Zhang, Y.*, 2007, “A Boundary Element Method for the Evaluation of the Effective Thermal Conductivity of Packed Beds,” ASME J. Heat Transfer, 129(3), pp. 363-371.

2006 (8)

55.       Zhang, Y.*, 2006, “Nonequilibrium Modeling of Heat Transfer in a Gas-Saturated Powder Layer Subject to Short-Pulsed Heat SourceNumerical Heat Transfer, Part A, 50(6), pp. 509-524.

54.       Chen, T., and Zhang, Y.*, 2006, “Analysis of Melting in a Subcooled Two-Component Metal Powder Layer with Constant Heat FluxApplied Thermal Engineering, 26(7), pp. 751-765.

53.       Chen, T., and Zhang, Y.*, 2006, “A Partial Shrinkage Model for Selective Laser Sintering of a Two-Component Metal Powder LayerInt. J. Heat Mass Transfer, 49(7-8), pp. 1489-1493.

52.       Xiao, B., and Zhang, Y.*, 2006, “Partial Melting and Resolidification of Metal Powder in Selective Laser Sintering,” AIAA J. Thermophysics and Heat Transfer, 20(3), pp. 439-448.

51.       Damronglerd, P., and Zhang, Y.*, 2006, “Transient Fluid Flow and Heat Transfer in a Porous Structure with Partial Heating and Evaporation on the Upper SurfaceJournal of Enhanced Heat Transfer, 13(1), pp. 53-64.

50.       Chen, T., and Zhang, Y.*, 2006, “Three-Dimensional Simulation of Selective Laser Sintering of a Two-Component Metal Powder Layer with Finite ThicknessASME J. Manufacturing Science and Engineering, 128(1), pp. 299-306.

49.       Ma, Z. H., and Zhang, Y.*, 2006, “Solid Velocity Correction Schemes for a Temperature Transforming Model for Convection Phase ChangeInternational Journal of Numerical Methods for Heat & Fluid Flow, 16(2), pp. 204-225.

48.       Boyden, S., and Zhang, Y.*, 2006, “Temperature and Wavelength-Dependent Spectral Absorptivities of Metallic Materials in the Infrared,” AIAA J. Thermophysics and Heat Transfer, 20(1), pp. 9-15.

2005 and Before

47.       Konrad, C., Zhang, Y.*, and Xiao, B., 2005, “Analysis of Melting and Resolidification in a Two-Component Metal Powder Bed Subjected to Temporal Gaussian Heat FluxInt. J. Heat Mass Transfer, 48(19-20), pp. 3932-3944.

46.       Zhang, Y.*, 2004, “A Simulation-Based Correlation of Cross-Sectional Area of the Thin Film Produced by Laser Chemical Vapor Deposition with a Moving Laser Beam,” ASME J. Manufacturing Science and Engineering, 126(4), pp. 796-800.

45.       Chen, T., and Zhang, Y.*, 2004, “Numerical Simulation of Two-Dimensional Melting and Resolidification of a Two-Component Metal Powder Layer in Selective Laser Sintering ProcessNumerical Heat Transfer, Part A, 46(7), pp. 633-649.

44.       Zhang, Y.*, 2004, “Effect of Natural Convection on Laser Chemical Vapor Deposition with a Stationary Laser BeamInternational Journal of Heat and Fluid Flow, 25 (4), pp. 683-691.

43.       Zhang, Y.*, 2003, “Quasi-Steady State Natural Convection in Laser Chemical Vapor Deposition using a Moving Laser Beam,” ASME Journal of Heat Transfer, 125(3), pp. 429-437.

42.       Zhang, Y.*, and Faghri, A., 2003, “Oscillatory Flow in a Pulsating Heat Pipes with Arbitrary Numbers of TurnsAIAA Journal of Thermophysics and Heat Transfer, 17(3), pp. 340-347.

41.       Zhang, Y.*, 2002, “Coupled Forced Convective Heat and Mass Transfer in a Circular Tube with External Convective HeatingProgress in Computational Fluid Dynamics Journal, 2(2-4), pp. 90-96.

40.       Shafii, M. B., Faghri, A., and Zhang, Y., 2002, “Analysis of Heat Transfer in Unlooped and Looped Pulsating Heat Pipes,“ Int. J. Numerical Methods for Heat and Fluid Flow, 12(5), pp. 585-609.

39.       Zhang, Y., Faghri, A., and Shafii, M.B., 2002, “Analysis of Liquid-Vapor Pulsating Flow in a U-shaped Miniature TubeInt. J. Heat Mass Transfer, 45(12), pp. 4501-4508.

38.       Zhang, Y., and Faghri, A., 2002, “Heat Transfer in a Pulsating Heat Pipe with Open End,” Int. J. Heat Mass Transfer, 45(4), pp. 755-764.

37.       Shafii, M. B., Faghri, A., and Zhang, Y., 2001, “Thermal Modeling of Unlooped and Looped Pulsating Heat Pipes,“ ASME J. Heat Transfer, 123(6), pp. 1159-1172.

36.       Zhang, Y., and Faghri, A., 2001, “Numerical Simulation of Condensation on a Capillary Grooved Structure,” Numerical Heat Transfer, Part A, 39(3), pp. 227-243.

35.       Zhang, Y., Faghri, A., Shafii, M. B., 2001, “Capillary Blocking in Forced Convective Condensation in Horizontal Miniature Channels,” ASME J. Heat Transfer, 123(3), pp. 501-511.

34.       Zhang, Y., and Faghri, A., 2000, “Thermal Modeling of Selective Area Laser Deposition of Titanium Nitride on a Finite Slab with Stationary and Moving Laser Beams,” Int. J. Heat Mass Transfer , 43(20), pp. 3835-3846.

33.       Zhang, Y., Faghri, A., Buckley, C.W., and Bergman, T.L., 2000, “Three-Dimensional Sintering of Two-Component Metal Powders with Stationary and Moving Laser Beams,” ASME J. Heat Transfer, 122(1), pp. 150-158.

32.       Zhang, Y., and Faghri, A., 1999, “Vaporization, Melting and Heat Conduction in the Laser Drilling Process,” Int. J. Heat Mass Transfer, 42(10), pp. 1775-1790.

31.       Zhang, Y., and Faghri, A., 1999,  “Melting of a Subcooled Mixed Powder Bed with Constant Heat Flux Heating,” Int. J. Heat Mass Transfer, 42(5), pp. 775-788.

30.       Zhang, Y., and Faghri, A., 1998, “Melting and Resolidification of a Subcooled Mixed Powder Bed with Moving Gaussian Heat Source,” ASME J. Heat Transfer, 120(4), pp. 883-891.

29.       Zhang, Y.*, and Faghri, A., 1998, “A Thermal Model for Mushy Zone Formation in Binary SolutionsASME J. Solar Energy Engineering, 120(2), pp. 144-147.

28.       Zhang, Y., and Faghri, A., 1997, “Analysis of Freezing in an Eccentric AnnulusASME J. Solar Energy Engineering, 119(3), pp. 237-241.

27.       Zhang, Y.*, Chen, Z.Q., and Faghri, A., 1997, “Heat Transfer During Solidification around a Horizontal Tube with Internal Convective CoolingASME J. Solar Energy Engineering, 119(1), pp. 44-47.

26.       Zhang, Y., and Faghri, A., 1996, “Heat Transfer Enhancement in Latent Heat Thermal Energy Storage System by Using the Internally Finned TubeInt. J. Heat Mass Transfer, 39(15), pp. 3165-3173.

25.       Zhang, Y., and Faghri, A., 1996, “Heat Transfer Enhancement in Latent Heat Thermal Energy Storage System by Using an External Radical Finned TubeJ. Enhanced Heat Transfer, 3(2), pp. 119-127.

24.       Zhang, Y., and Faghri, A., 1996, “An Integral Approximate Solution of Heat Transfer in the Grinding Process,” Int. J. Heat Mass Transfer, 39(13), pp. 2653-2662.

23.       Zhang, Y., and Faghri, A., 1996, “Semi- Analytical Solution of Thermal Energy Storage System with Conjugate Laminar Forced ConvectionInt. J. Heat Mass Transfer, 39(4), pp. 717-724.

22.       Zhang, Y., Chen, Z.Q., and Chen, M., 1996, “Local Non-Similarity Solution of Coupled Heat-Mass Transfer of a Flat Plate with Uniform Heat Flux in a Laminar Parallel FlowJ. Thermal Science, 5(2), pp. 112-116.

21.       Zhang, Y., and Faghri, A., 1995, “Analysis of Thermal Energy Storage System with Conjugate Turbulent Forced ConvectionAIAA J. Thermophysics and Heat Transfer, 9(4), pp. 722-726.

20.       Zhang, Y., and Faghri, A., 1995, “Analysis of Forced Convection Heat Transfer in Microencapsulated Phase Change Material Suspensions,” AIAA J. Thermophysics and Heat Transfer, 9(4), pp. 727-732.

19.       Zhang, Y.*, and Chen, Z.Q., 1994, “Effect of Wall Conduction on Melting in an Enclosure Heated by Constant RateInt. J. Heat Mass Transfer, 37(2), pp. 340-343.

18.       Zhang, Y.*, Chen, Z.Q., and Wang, Q.J., 1994, “Analysis of Melting in an Enclosure with Discrete Heating at Constant RateInt. J. Heat and Fluid Flow, 15(1), pp. 79-82.

17.       Zhang, Y., and Y., Ju, 1994, “Analysis of Solidification in the Presence of High Rayleigh Number Convection in an EnclosureJ. Thermal Science, 3(3), pp. 173-176.

16.       Zhang, Y., W. Li and Chen, Z.Q., 1994, “Heat Transfer on an Aligned Tube Bank with Enlarged First Row TubeJournal of Xi’an Jiaotong University, 28(9), pp. 44-50.

            (in Chinese: 张玉文, 李娬, 陈钟颀,  首排管径增大时顺排管的对流换热, 西安交通大学学报, 28卷第9,44-50, 199412).

15.       Zhang, Y.*, Chen, Z.Q., Wang, Q.J., and Wu, Q.J., 1994, “Numerical Solution of Melting in a Rectangular Cavity with Discrete Heat SourcesChinese Journal of Computational Physics, 11(1), pp. 9-16.

            (in Chinese: 张玉文, 陈钟颀,王启杰,吴清金,  有分散热源时矩形区域内熔化问题的数值解, 计算物理, 11卷第1,9-16, 19943).

14.       Chen, M., Zhang, Y., and Chen, Z.Q., 1994, “Solidification in a Concentric Annulus with Boundary Conditions of the Third KindActa Energiae Solaris Sinica, 15(1), pp. 43-49.

            (in Chinese: 陈明勇, 张玉文, 陈钟颀,  第三类边界条件下环形空腔内凝固问题的研究, 太阳能学报, 15卷第1,43-49, 1994).

13.       Dan, J., Zhang, Y., and Chen, Z.Q., 1994, “Heat Transfer and Pressure Drop Characteristics for Non-Standard Staggered Fin Array with Top Clearance Aligned Parallel to an Air FlowActa Energiae Solaris Sinica, 15(2), pp. 147-152.

            (in Chinese: 淡建宇, 张玉文, 陈钟颀,  空气纵掠带顶端间隙的非标准错列肋片簇的换热及阻力性能的研究, 太阳能学报, 15卷第2,147-152, 1994).

12.       Ju, Y., Zhang, Y. and Chen, Z.Q., 1994, “Studies on Thermal Performance of Fin Array with Coupled Radiation and ConvectionJournal of Gansu Sciences, 6(3), pp. 27-30.

            (in Chinese: 巨永林, 张玉文, 陈钟颀, 复合换热情况下肋片性能的研究, 甘肃科学学报,6卷第3,24-30, 1994).

11.       Zhang, Y., Jin, Y.Y., Chen, Z.Q., Dong, Z.F., and Ebadian, M.A., 1994, “An analytical Solution to Melting in a Finite Slab with a Boundary Condition of the Second Kind ASME J. Heat Transfer, 115(2), 463-467.

10.       Zhang, Y., Chen, Z.Q., Wang, Q.J., and Wu, Q.J., 1993, “Melting in an Enclosure with Discrete Heating at Constant Rate,” Experimental Thermal and Fluid Science, 6(2), 196-201.

9.         Zhang, Y., and Chen, Z.Q., 1993, “Solidification around Horizontal Cylinder Controlled by Natural ConvectionActa Energiae Solaris Sinica, 14(4), pp. 357-363.

            (in Chinese: 张玉文, 陈钟颀,  自然对流控制下水平圆管外凝固问题的研究, 太阳能学报, 14卷第4,357-363, 1993).

8.         Zhang, Y., Chen, Z.Q., and Wang, Q.J., 1993, “Analytical Solution of Melting in a Subcooled Semi- Infinite Solid with Boundary Condition of the Second KindJ. Thermal Science, 2(2), pp. 111-115.

7.         Zhang, Y., and Ju, Y., 1993, “Flow Pattern and Thermal Drag in a One-Dimensional Inviscid Channel with Heating or Cooling J. Thermal Science, 2(4), pp. 266-269.

6.         Zhang, Y., and Chen, Z.Q., 1993, “Fully Automatic Measuring System of Local Mass/Heat Transfer CoefficientExperimental Technique and Management, 10(2), pp. 33-35.

            (in Chinese: 张玉文, 陈钟颀, 局部质()交换系数的全自动测量系统, 实验技术与管理, 10卷第2,33-35, 1993).

5.         Zhang, Y., Chen, Z.Q., and Liu, X.D., 1993, “Radiative Heat Transfer of an Isolated Phase Circular Bus with SlotsElectric Power Construction, 14(7), pp. 1-2.

            (in Chinese: 张玉文, 陈钟颀, 刘咸定, 双半圆形自冷封闭母线内辐射换热计算, 电力建设, 14卷第7,1-2, 1993).

4.         Zhang, Y., Chen, Z.Q., and Dong, Z.F., 1993, “Thermodynamic Analysis of Latent Heat Energy Storage SystemJournal of Gansu Sciences, 5(3), pp. 28-32.

            (in Chinese: 张玉文, 陈钟颀, 董志锋, 潜热蓄热系统的热力学分析, 甘肃科学学报,5卷第3,28-32, 1993).

3.         Zhang, Y., and Chen, Z.Q., 1992, “The Effect of Gap between Layers on the Heat Transfer Performance of Aligned Tube BanksHeat Transfer Engineering, 13(2), pp. 33-41.

2.         Zhang, Y., and Chen, Z.Q., 1992, “Analytical Solution of Coupled Laminar Heat- Mass Transfer in a Tube with Uniform Heat Flux J. Thermal Science, 1(3), pp. 184-188.

1.         Zhang, Y., and Chen, Z.Q., 1989, “Numerical Analysis of Fin Surface with Radiation and ConvectionJournal of Engineering Thermophysics, 10(1), pp. 69-71.

            (in Chinese: 张玉文, 陈钟颀, 辐射对流条件下肋片散热的数值计算, 工程热物理学报,10卷第1,69-71, 19892).

 

 

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