鄭金祥 教授 簡介

職稱:國立成功大學航空太空工程研究所特聘教授
辦公室:5861
電話:(06)2757575 ext 63627
傳真:(06)2389940

學歷

大同大學機械工程研究所 博士

經歷

成功大學航空太空工程研究所教授 (08/2006~ )
大同大學機械系教授 (01/1997~07/2006)
大同大學機械系副教授 (07/1989~12/1996)

專長及研究領域

燃料電池 , 奈米系統分析 , 微致動器與熱電元件 , 史特靈引擎 , 逆向熱流法則 , 熱系統最佳化設計 , LCD/OLED製程技術

榮譽及獎勵

1. 國科會熱流暨能源學門複審委員/重點研究規劃委員(93-95年)
2. Visiting professor, Southern Illinois University, Carbondale, July 1997
3. Editorial Board Member, Far East Journal of Applied Mathematics (92 年迄今)
4. Editorial Board Member, Int. Journal of Theoretical and Applied Mechanics (94 年迄今)
5. Editorial Board Member, JP Journal of Heat and Mass Transfer (95 年迄今)
6. International Scientific Committee Member, The IASME/WSEAS International
Conference on Heat Transfer, Thermal Engineering and Environment
7. Marquis Who'sWho in Science and Engineering (since 8th Edition); Marquis
Who'sWho in Asia (since 1st Edition) ; Marquis Who'sWho in the World (since 24th
Edition) — by Marquis Who'sWho.
8. Dictionary of International Biography (since 31st Edition); 2000 Outstanding
Scientists of the 21st Century (since 2005); International Biographical Centre Awards
Roster of 2005 — by IBC, Cambridge, England.
9. 論文及研究案經常審查:

1)國內期刊:

a. 中國機械工程學刊
b. 力學期刊
c. 造船學刊
d. 航太學刊
e. 中正嶺學報

2)國際期刊:

a. Heat Transfer Engineering
b. Experimental Thermal and Fluid Science
c. Int. J. of Transport Phenomena
d. ASME J. Heat Transfer
e. ASME J. Electronic Packaging
f. Numerical Heat Transfer, Part A and Part B
g. Int. J. Heat Mass Transfer
h. Int. Comm. Heat Mass Transfer
i. Int. J. Heat Fluid Flow
j. Int. J. Rotating Machinery
k. Int. J. Refrigeration
l. iNEER Special Volumes: INNOVATIONS-World Innovations in
Engineering Education and Research
m. Applied Thermal Engineering
n. Int. J. for Num. Methods in Fluids

3)國科會及工研院研究案審查等.

10. 獲獎記錄:

1)工業能源有效利用研討會優等論文獎(經濟部) (1985 年5 月)
2)協志工業論文獎(1991-2002)(特優獎4 次、優等獎7 次、及1 次佳作獎)
3)國科會甲等獎(國科會) (1989, -90, -91, -92, -93, -94, -96, -97, -98, 2000,
共10 次)
4)大同大學論文特優獎(大同大學) (2003 年10 月)
5)大同大學論文優等獎(大同大學) (2004 年10 月)
6)大同大學論文特優獎(大同大學) (2005 年10 月)

11. 邀請演講:

1.國內研究機構邀請演講:

1)成功大學機械研究所演講「垂直流道內浮力增進型逆流現象」(1992 年6 月)
2)中央研究院物理研究所演講「Buoyancy Effect on Flow Reversal in Three-
Dimensional Ducts」(1993 年8 月)
3)黎明技術學院88 年度學術研討會邀請演講「振動體之熱傳特性分析」
(2000 年5 月)
4)中正大學機械研究所演講「Development in Stirling Engine Technology」
(2003 年4 月)
5)永達技術學院演講「史特靈引擎技術發展」(2003 年5 月)
6)台北師範學院玩具與遊戲研究所演講「史特靈引擎」(2004 年10 月)
7)中央大學機械研究所演講「史特靈發電機」(2004 年12 月)
8)成功大學機械研究所演講「史特靈引擎技術發展」(2005 年4 月)
9)高雄第一科技大學光電所演講「新能源技術」(2006 年3 月)
10)成功大學航太所演講「史特靈引擎技術發展」(2006 年3 月)
11)逢甲大學航空所演講「史特靈發電機」(2006 年5 月)
12)國立自然科學博物館演講「史特林引擎的過去、現在、與未來」(2006 年7 月)
13)第十三屆全國計算流體力學學術研討會邀請演講「Numerical Simulation of
Transport Phenomena in PEMFC and Optimization of Key Parameters」(2006 年8 月)
14)高苑科技大學自動化工程系演講「史特靈引擎」(2006 年9 月)
15)中華技術學院航機系演講「史特靈引擎與未來動力」(2006 年11 月)
16)國立科學工藝博物館演講「史特靈引擎的過去、現在、與未來」
(2006 年11月)
17)成功大學機械研究所演講「逆向熱傳理論應用於燃料電池最佳化設計」
(2006 年11 月)
18)台北科技大學冷凍空調研究所演講「質子交換膜燃料電池之最佳化設計」
(2007 年 5 月)
19)核能研究所演講「史特靈發電機技術發展」(2007 年5 月)


2.國外研究機構Invited Lecture:

1) Department of Mechanical Engineering, University of Maryland, USA, August, 1993.
Invited Lecture on「Mixed Convection in Developing Flow and Flow Reversal in a
Rectangular, Vertical Duct with Unequally Heated IsothermalWalls」
2) National Research Council (NRC), Vancouver, Canada, December, 2005. Invited
Lecture on「PEM Fuel Cell Modeling and Optimization」
3) Plenary Speech at the 4th WSEAS International Conference on HEAT and MASS
TRANSFER, Gold Coast, Queensland, Australia, January 17-19, 2007
「Optimization of PEM Fuel Cells」
4) Invited Speaker, 2007 Taiwan-Japan Joint Workshop on Inverse Problem
Institute of Mathematics, Academia Sinica, Nankang, Taipei, Feb. 2-4, 2007.
「Optimization of Key Parameters of PEM Fuel Cells by Inverse Heat Transfer Theory」
1. , A METHOD INTEGRATING OPTIMAL ALGORITHM AND FEM ON CMOS RESIDUAL STRESS , JOURNAL OF MECHANICS , 2013 (SCI) 摘要
2. , Studies on argon collisions with smooth and rough tungsten surfaces , JOURNAL OF MOLECULAR GRAPHICS AND MODELLING , 2013 (SCI) 摘要
3. , Geometry optimization of thermoelectric coolers using simplified conjugate-gradient method , ENERGY , 2013 (SCI) 摘要
4. , Theoretical and experimental study of a 300-W beta-type Stirling engine , ENERGY , 2013 (SCI) 摘要
5. , Dynamic simulation of thermal-lag Stirling engines , APPLIED ENERGY , 2013 (SCI) 摘要
6. , Rarefied gas flow through nanoscale tungsten channels , JOURNAL OF MOLECULAR GRAPHICS AND MODELLING , 2013 (SCI) 摘要
7. , Theoretical model for predicting thermodynamic behavior of thermal-lag Stirling engine , ENERGY , 2013 (SCI) 摘要
8. , Optimal design of parallel channel patterns in a micro methanol steam reformer , INTERNATIONAL JOURNAL OF HYDROGEN ENERGY , 2012 (SCI) 摘要
9. , A three-dimensional numerical modeling of thermoelectric device with consideration of coupling of temperature field and electric potential field , ENERGY , 2012 (SCI) 摘要
10. , New statistical boundary conditions for argon–tungsten interactions , JOURNAL OF MOLECULAR GRAPHICS AND MODELLING , 2012 (SCI) 摘要
11. , MOLECULAR DYNAMIC SIMULATION OF COPPER NANOCLUSTER DEPOSITION USING GRAPHICS PROCESSING UNITS (GPU) , Вычислительная механика сплошных сред , 2012 (SCI) 摘要
12. , Development of a non-uniform-current model for predicting transient thermal behavior of thermoelectric coolers , APPLIED ENERGY , 2012 (SCI) 摘要
13. , SIMULATION OF COPPER NANOCLUSTER DEPOSITION ON THE CONTAMINATED SURFACE USING GAMING GPU , INTERNATIONAL JOURNAL OF COMPUTATIONAL MATERIALS , 2012 (SCI) 摘要
14. , Optimal Design of the Composite Laminate Vessel Based on SCGM , INTERNATIONAL JOURNAL OF SCIENCE AND ENGINEERING , 2012 (SCI) 摘要
15. , Experimental and numerical study of proton exchange membrane fuel cell with spiral flow channels , APPLIED ENERGY , 2012 (SCI) 摘要
16. , The three-dimensional simulation and optimization of an integrated power system for reformer-PrOx-fuel cell modeling , INTERNATIONAL JOURNAL OF HYDROGEN ENERGY , 2012 (SCI) 摘要
17. , Optimization of geometrical parameters for Stirling engines based on theoretical analysis , APPLIED ENERGY , 2012 (SCI) 摘要
18. , Numerical predictions of natural convection with liquid fluids contained in an inclined arc-shaped enclosure , INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER , 2012 (SCI) 摘要
19. , The Optimization of the Thermal Response on the ZnO Flexible Pyroelectric Film Temperature Sensor , IEEE SENSORS JOURNAL , 2012 (SCI) 摘要
20. , Combining dynamic and thermodynamic models for dynamic simulation of a beta-type Stirling engine with rhombic-drive mechanism , RENEWABLE ENERGY , 2012 (SCI) 摘要
21. , Liquid water flooding in a proton exchange membrane fuel cell cathode with an interdigitated design , INTERNATIONAL JOURNAL OF ENERGY RESEARCH , 2011 (SCI) 摘要
22. , Analytical model for predicting the effect of operating speed on shaft power output of Stirling engines , ENERGY , 2011 (SCI) 摘要
23. , Tensile and compressive behaviors of open-tip carbon nanocones under axial strains , MATERIALS RESEARCH SOCIETY , 2011 (SCI) 摘要
24. , New modeling of scattering behaviors of argon atoms on tungsten substrate , JOURNAL OF MOLECULAR GRAPHICS AND MODELLING , 2011 (SCI) 摘要
25. , Optimization of Thermal Management by Integration of an SCGM, a Finite-Element Method, and an Experiment on a High-Power LED Array , IEEE TRANSACTIONS ON ELECTRON DEVICES , 2011 (SCI) 摘要
26. , Predictions of buoyancy-induced flow in various across-shape concave enclosures , INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER , 2011 (SCI) 摘要
27. , Dynamic simulation of a beta-type Stirling engine with cam-drive mechanism via the combination of the thermodynamic and dynamic models , RENEWABLE ENERGY , 2011 (SCI) 摘要
28. , Development of an energy-saving module via combination of solar cells and thermoelectric coolers for green building applications , ENERGY , 2011 (SCI) 摘要
29. , An inverse geometry design problem for optimization of single serpentine flow field of PEM fuel cell , INTERNATIONAL JOURNAL OF HYDROGEN ENERGY , 2010 (SCI) 摘要
30. , The effects of geometric and operating conditions on the hydrogen production performance of a micro-methanol steam reformer , CHEMICAL ENGINEERING SCIENCE , 2010 (SCI) 摘要
31. , Numerical model for predicting thermodynamic cycle and thermal efficiency of a beta-type Stirling engine with rhombic -drive mechanism , RENEWABLE ENERGY , 2010 (SCI) 摘要
32. , Optimization of Channel Width Distribution of a Gas Flow Field by Integrating Computational Fluid Dynamics Code with a Simplified Conjugate-Gradient Method , ENERGY & FUELS , 2010 (SCI) 摘要
33. , A three-dimensional theoretical model for predicting transient thermal behavior of thermoelectric coolers , INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER , 2010 (SCI) 摘要
34. , Optimal design of baffles locations with interdigitated flow channels of a centimeter-scale proton exchange membrane fuel cell , INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER , 2010 (SCI) 摘要
35. , Numerical analysis of effects of flow channel size on reactant transport in a proton exchange membrane fuel cell stack , JOURNAL OF POWER SOURCES , 2009 (SCI) 摘要
36. , Flow field optimization for proton exchange membrane fuel cells with varying channel heights and widths , ELECTROCHIMICA ACTA , 2009 (SCI) 摘要
37. , The Optimization for the Shape Profile of the Slider Surface Under Ultra-Thin Film Lubrication Conditions by the Rarefied-Flow Model , JOURNAL OF MECHANICAL DESIGN , 2009 (SCI) 摘要
38. , Optimal design of Al/Si bimorph electro-thermal microactuator by integrating finite-element code with optimization method , SENSORS AND ACTUATORS A-PHYSICAL , 2009 (SCI) 摘要
39. , Numerical study of the effects of lid oscillation on the periodic flow pattern and convection heat transfer in a triangular cavity , INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER , 2009 (SCI) 摘要
40. , Numerical simulation of periodic mixed convective heat transfer in a rectangular cavity with a vibrating lid , APPLIED THERMAL ENGINEERING , 2009 (SCI) 摘要
41. , Measurement of Surface Tension of Epoxy Resins Used in Dispensing Process for Manufacturing Thin Film Transistor-Liquid Crystal Displays , IEEE TRANSACTIONS ON ADVANCED PACKAGING , 2008 (SCI) 摘要
42. , Modeling, fabrication and performance test of an electro-thermal microactuator , SENSORS AND ACTUATORS A-PHYSICAL , 2008 (SCI) 摘要
43. , Shape design of millimeter-scale air channels for enhancing heat transfer and reducing pressure drop , International Journal of Heat and Mass Transfer , 2008 (SCI) 摘要
44. , Design for wall shape profile of a millimeter-scale air-heating channel by integrating three-dimensional CFD code with optimization , Numerical Heat Transfer, Part A: Applications , 2008 (SCI) 摘要
45. , Effects of fabrication processes and material parameters of GDL on cell performance of PEM fuel cell , International Journal of Hydrogen Energy , 2007 (SCI) 摘要
46. , Design for geometric parameters of PEM fuel cell by integrating computational fluid dynamics code with optimization method , JOURNAL OF POWER SOURCES , 2007 (SCI) 摘要
47. , Numerical prediction of the effect of catalyst layer Nafion loading on the performance of PEM fuel cells , Journal of Power Sources , 2007 (SCI) 摘要
48. , Numerical predictions of flow and thermal fields in an enclosure with two periodically moving walls , INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS , 2006 (SCI) 摘要
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1. Cheng, C.H. and Huang, W.H., 1987, "Heat Transfer Analysis of the Inorganic
Decomposition Chemical Reaction Thermal Storage System," TATUNG Journal,
Vol.17, pp.1~8.
2. Cheng, C.H., Kou, H.S., and Huang, W.H., 1987, "Laminar Free Convection
between Vertical Parallel Plates," TATUNG Journal, Vol.17, pp.17~25.
3. Cheng, C.H., Huang, W.H. and Kou, H.S., 1988, "Laminar Free Convection of the
Mixing Flows in Vertical Channels," Numerical Heat Transfer, Vol.14, pp.447-463.
4. Cheng, C.H., Huang, W.H., 1989, "Entropy Generation and Heat Transfer via
Laminar Forced Convection Channel Flows over Transverse Fins in Entrance
Regions," Applied Energy, Vol.32, pp.241-267.
5. Cheng, C.H., Kou, H.S. and Huang, W.H.,1989, "Laminar Fully Developed Forced
Convection Flow Within Asymmetrically Heated Horizontal Double-Passage
Channel, " Applied Energy, Vol.33, pp.265-289.
6. Cheng, C.H. and Huang, W.H.,1989, "Laminar Forced Convection Flows in
Horizontal Channel with Transverse Fins Placed in Entrance Regions," Numerical
Heat Transfer, Part A, Vol.16, pp.77-100.
7. Cheng, C.H., Kou, H.S. and Huang, W.H., 1990, "Analysis on the Flow Reversal
and Heat Transfer of the Fully Developed Mixed Convection in Vertical Channels,"
AIAA J. Thermophysics and Heat Transfer, Vol.4, pp.375-383.
8. Cheng, C.H., Kou, H.S. and Huang, W.H., 1990, "Locally Fully Developed
Laminar Free Convection Within Asymmetrically Heated Vertical Channel," JSME
Int. Journal, Series II, Vol.33, pp.305-315.
9. Luy, C.D. and Cheng, C.H., 1990, "Numerical Studies on Heat Convection in a
Parallel-Plate Channel With a Transverse Block Array," TATUNG Journal, Vol.20,
pp.67-78.
10. Luy, C.D. and Cheng, C.H. and Huang, W.H., 1991, "Forced Convection in
Parallel-Plate Channels with a Series of Fins Mounted on the Wall," Applied
Energy, Vol.39, pp.127-144.
11.Cheng, C.H. and Weng, C.J., 1991, "Flow Reversal of Combined Convection in a
Vertical Rectangular Duct with Unequally Isothermal Walls," Int. Comm. Heat
Mass Transfer, Vol.18, pp.127-140.
12.Cheng, C.H. and Huang, W.H.,1991, "Numerical Prediction for Laminar Forced
Convection in Parallel-Plate Channels with Transverse Fin Arrays," Int. J. Heat
Mass Transfer, Vol.34, pp.2739-2749.
13.Cheng, C.H., Luy, C.D. and Huang, W.H., 1992, "Buoyancy Effect on the Heat
Convection Vertical Channels with Fin Array at Low Reynolds Number," Int. J.
Heat Mass Transfer, Vol.35, pp.2643-2653.
14.Cheng, C.H. and Weng, C.J., 1993, "Developing Flow of Mixed Convection in
Vertical Rectangular Duct with One Heating Wall," Numerical Heat Transfer, Part
A, Vol.24, pp.479-493.
15.Cheng, C.H. and Yang, J.J., 1994, "Bouyancy-Induced Recirculation Bubbles and
Heat Convection of Developing Flow in Vertical Channels with Fin Arrays," Int.
Journal of Heat and Fluid Flow, Vol.15, pp.11-19.
16.Cheng, C.H. and Huang, C.S.,1994, "Extended Model for Singal-Blow Transient
Testing Method in Evaluating Thermal Performance of Heat Transfer Surfaces,"
Int. Comm. Heat Mass Transfer, Vol.21, pp.53-63.
17.Cheng, C.H., Ma, W.P. and Huang, W.H., 1994, "Numerical Prediction of Entropy
Generation for Mixed Convection Flows in a Vertical Channel with Transverse Fin
Array," Int. Comm. Heat Mass Transfer, Vol.21, pp.519-530.
18.Cheng, C.H., Weng, C.J. and Aung, W., 1995, "Buoyancy Effect on the Flow
Reversal of Three-Dimensional Developing Flow in a Vertical Rectangular Duct-A
Parabolic Model Solution," ASME J. Heat Transfer, Vol.117, pp.238-241.
19.Cheng, C.H. and J.H. Yu, 1995, "Conjugate Heat Transfer and Buoyancy-Driven
Secondary Flow in the Cooling Channels Within a Vertical Slab," Numerical Heat
Transfer, Part A, Vol.28, pp.443-460.
20.Cheng, C.H. and Chao, C.C., 1996, "Numerical Prediction of the Buoyancy-
Driven Flow in the Annulus Between Horizontal Eccentric Elliptical Cylinders,"
Numerical Heat Transfer, Vol.30, pp.283-303.
21.Cheng, C.H., Chen, H.N. and Aung, W., 1997, "Experimental Study on the Effect
of Transverse Oscillation on Convection Heat Transfer From a Circular Cylinder,"
J. Heat Transfer, Vol.199, pp.474-482.
22.Cheng, C.H., Hong, J.L. and Aung, W., 1997, "Numerical Prediction of Lock-on
Effect on Convective Heat Transfer From a Transverse Oscillating Circular
Cylinder," Int. J. Heat Mass Transfer, Vol.40, pp.1825-1834.
23.Cheng, C.H., Huang, S.Y. and Aung, W., 1997, "Enhancement of FLARE Method
for Predicting Buoyancy-Induced Flow Reversal in Vertical Ducts via Parabolic
Model," Numerical Heat Transfer, Part B, Vol.31, pp.327-345.
24.Cheng, C.H. and Yu, J.H., 1999,"Conjugate Heat Transfer in an Inclined Slab With
an Array of Horizontal Circular Channels, " Numerical Heat Transfer, Part A,
Vol.35, pp.779-796.
25.Chang, M.H. and Cheng, C.H., 1999, "Predictions of Lid-Driven Flow and Heat
Convection in an Arc-Shape Cavity," Int. Comm. Heat Mass Transfer, Vol. 26,
pp.829-838.
26.Cheng, C.H. and Wu, C.Y., 2000, “An Approach Combining Body-Fitted Grid
Generation and Conjugate Gradient Methods for Shape Design in Heat Conduction
Problems,” Numerical Heat Transfer, Part B, Vol.37, pp.69-83.
27.Cheng, C.H., Weng, C.J. and Aung, W., 2000, “Buoyancy-Assisted Flow-Reversal
and Convective Heat Transfer in Entrance Region of a Vertical Rectangular Duct,”
Int. J. Heat and Fluid Flow, Vol.21, pp.403-411.
28.Cheng, C.H. and Yu, J.H., 2000, “Buoyancy-Assisted Flow Reversal in Vertical
Circular Channels within an Asymmetrically-Heated Slab,” Int. Comm. Heat Mass
Transfer, Vol.27, pp.645-654.
29.Cheng, C.H., Lin, C.Y., and Aung, W., 2000, “Predictions of Developing Flow with
Buoyancy-Assisted Flow Separation in a Vertical Rectangular Duct: Parabolic
Model Versus Elliptic Model,” Numerical Heat Transfer, Part A, Vol.37,
pp567-586.
30.Cheng, C.H. and Liao, F.L., 2000, “DSMC Analysis of Rarefied Gas Flow Over a
Rectangular Cylinder at All Knudsen Numbers,” ASME J. Fluids Engineering,
Vol.122, pp720-729.
31.Cheng, C.H. and Hung, K.S., 2000, “Numerical Predictions of Flow and Thermal
Fields in a Reciprocating Piston-Cylinder Assembly,” Numerical Heat Transfer,
Part A, Vol.38, pp.397-421.
32. Lan, C.H., Cheng, C.H., and Wu, C.Y., “Shape Design of Heat Conduction
Problems Using Curvilinear Grid Generation, Conjugate Gradient, and
Redistribution Methods,” Numerical Heat Transfer, Part A, Vol.39, pp. 487-510,
2001.
33.Cheng, C.H. and Cheng, Y.C., “Predictions of Frost Growth on a Cold Plate in
Atmospheric Air,” Int. Comm. Heat Mass Transfer, Vol.28, pp.953-962, 2001.
34.Hung, K.S. and Cheng, C.H., "Pressure Effects on Natural Convection for
Non-Boussinesq Fluid in a Rectangular Enclosure," Numerical Heat Transfer, Part
A, Vol. 41, pp.515-528, 2002.
35.Cheng, C.H., Huang, S.Y., Aung W., “Numerical Prediction of Mixed Convection
and Flow Separation in a Vertical Duct with Arbitrary Cross Section,” Numerical
Heat Transfer, Part A, Vol.41, pp.491-514, 2002.
36.Cheng, C.H. and Shiu, C.C., “Frost formation and frost crystal growth on a cold
plate in atmospheric air flow,” Int. J. Heat Mass Transfer, Vol.45, pp.4289-4303,
2002.
37.Chen, C.L. and Cheng, C.H., “Buoyancy-Induced Flow and Convective Heat
Transfer in an Inclined Arc-Shape Enclosure,” Int. J. Heat and Fluid Flow, Vol.23,
pp.823-830, 2002.
38.Cheng, C.H. and C.C. Shiu, “ Oscillation Effects on Frost Formation and Liquid
Droplet Solidification on a Cold Plate in Atmospheric Air Flow,”Int. J. of
Refrigeration, Vol.26, pp.69-78, 2003.
39.Cheng, C.H. and Chang, M.H., “Shape Design for a Cylinder with Uniform
Temperature Distribution on the Outer Surface by Inverse Heat Transfer Method,”
Int. J. Heat Mass Transfer, Vol.46, pp.101-111, 2003.
40.Cheng, C.H. and Wu, K.H., “Observations of Early-Stage Frost Formation on a
Cold Plate in Atmospheric Air Flow,” ASME J. Heat Transfer, Vol.125, pp.95-102,
2003.
41.Cheng, C.H. and Chang, M.H., “Shape Identification by Inverse Heat Transfer
Methods,” ASME J. Heat Transfer, Vol.125, pp.224-231, 2003.
42.Chang, M.H. and Cheng, C.H., ”A Simplified Conjugate-Gradient Method for
Shape Identification Based on Thermal Data”, Numerical Heat Transfer, Part B,
Vol.43, pp. 489-507, 2003.
43.Cheng, C.H. and Chang, M.H., “Shape Identification for Water-Ice Interface within
the Cylindrical Capsule in Cold Storage System by Inverse Heat Transfer Method”,
Int. J. of Refrigeration, Vol.26, pp.543-550, 2003.
44.Cheng, C.H., Lin, H.H., and Aung, W., “Optimal Shape Design for Packaging
Containing Heating Elements by Inverse Heat Transfer Method,”Heat and Mass
Transfer, Vol.39, pp.687-692, 2003.
45.Chen, C.L. and Cheng, C.H., “Numerical Prediction of Buoyancy- Induced
Periodic Flow Pattern and Heat Transfer in a Lid-Driven Arc-Shape Cavity,”
Numerical Heat Transfer, Part A, Vol.44, pp.645-663, 2003.
46.Cheng, C.H. and Chang, M.H., “Shape Design for Surface of a Slider by Inverse
Method”, ASME J. Tribology, Vol.126, pp.519-526, 2004.
47.Chen, C.L. and Cheng, C.H., "Experimental and Numerical Study of Mixed
Convection and Flow Pattern in a Lid-Driven Arc-Shape Cavity," Heat and Mass
Transfer, Vol.41, pp.58-66, 2004.
48.Cheng, C.H. and H.W. Chang, “Simulation of Phase Transition for Water in
Nanoscale Systems by Molecular Dynamics Method,” Int. J. Heat Mass Transfer,
Vol. 47, pp.5011-5020, 2004.
49.Cheng, C.H. and Chen, C.L., " Buoyancy-Induced Periodic Flow and Heat
Transfer in Lid-Driven Cavities with Different Cross-Sectional Shapes," Int. Comm.
Heat Mass Transfer, Vol.32, pp.483-490, 2005.
50.Cheng, C.H. and Chang, M.H., “Predictions of Internal Temperature Distribution
of PEMFC by Nondestructive Inverse Method,” J. Power Sources, Vol.139,
pp.115-125, 2005.
51.Cheng, C.H. and Hung, K.S., "Experimental and Numerical Study of Three-
Dimensional Flow Field in Minienvironment," Energy and Buildings, Vol. 37,
pp.579-586, 2005.
52.Chang, M.H. and Cheng, C.H., “Non-destructive Inverse Method for
Determination of Irregular Internal Temperature Distribution in PEMFCs,” J.
Power Sources, Vol. 142, pp.200-210, 2005.
53.Cheng, C.H., “Strengthening Connection between Theories and Engineering
Practice via Miniature Stirling Engines,” Chap.12, Innovations 2005-World
Innovations in Engineering Education and Research, iNEER, Begell House
Publishing, 2005.
54.Cheng, C.H. and Chen, C.L., “Numerical Studyof Effects of Inclination on
Buoyancy-Induced Flow Oscillation in a Lid-Driven Arc-Shape Cavity,”
Numerical Heat Transfer, Part A, Vol.48, pp.77-97, 2005.
55.Chang, M.H. and Cheng, C.H., “Optimal Design of Slider Shape for Satisfying
Load Demands under Specified Operation Conditions,” Tribology International,
Vol. 38, pp.757-768, 2005.
56.Hung, K.S and Cheng, C.H., “Numerical Simulation of Wall Oscillation Effects on
Convection Heat Transfer in Square Enclosures,”IASME Transactions, Vol.2,
pp.1409-1418, 2005.
57.Cheng, C.H. and Hung, K.S., “Numerical Predictions of Thermal Convection in a
Rectangular Enclosure with Oscillating Wall,” Numerical Heat Transfer, Part A,
Vol. 48, pp.791-809, 2005.
58.Cheng, C.H. and Chang, M.H., “Identification of Unknown Geometry and
Temperature for Heating Elements Embedded in a Rectangular Package,”ASME J.
Heat Transfer, Vol. 127, pp.918-930, 2005.
59.Cheng, C.H. and Chang, M.H., “Design of Irregular Slider Surface for Satisfying
Specified Load Demands,”ASME J. Mechanical Design, Vol.127, pp.1184-1185,
2005.
60.Chen, C.L. and Cheng, C.H., " Periodic Flow Pattern and Convection Heat Transfer in an
Arc-Shape Cavity with Oscillating Lid,” Numerical Heat Transfer, Part A, in press.
61.Lin, H.H., Cheng, C.H., Soong, C.Y., Chen, F.L., Yan, W.M., “Optimization of Key
Parameters in Proton Exchange Membrane Fuel Cell,” Journal of Power Sources, Vol.162, pp.246-254, 2006.
62.Chen, C.L. and Cheng, C.H., "Numerical Study of Flow and Thermal Behavior of Lid-Driven
Flows in Cavities of Small Aspect Ratios," Int. J. for Numerical Methods in Fluids, Vol.52, pp.785-799, 2006.
63.Yan, W.M., Liu, H.C., Soong, C.Y., Chen, F.L. and Cheng, C.H., “Numerical Study on Cell Performance and Local Transport Phenomena of PEM Fuel Cells with Novel Flow Field Designs,” Journal of Power Sources, Vol.161, pp.907-919, 2006.
64.Tsai, C.R., Chen, F.L., Ruo, A.C., Chang, M.H., Chu, H.S., Soong, C.Y., Yan, W.M. and Cheng, C.H., “An Analytical Solution for Transport of Oxygen in Cathode Gas Diffusion Layer of PEMFC,” Journal of Power Sources, Vol.160, pp. 50-56, 2006.
65.Cheng, C.H. and Hung, K.S., “Numerical Predictions of Flow and Thermal Fields in an Enclosure with Two Periodically Moving Walls,” Int. J. for Numerical Methods in Fluid, Vol.53, pp. 353-369, 2007.
66.Chen, F.L., Chang, M.H., Fang, C.F., Yan, W.M., Soong, C.Y. and Cheng, C.H., 2006, “Analysis of Water Transport in a Five-Layer Model of PEMFC,” Journal of Power Sources, accepted.
67.Yan, W.M., Hsueh, C.Y., Soong, C.Y., Chen, F., Cheng, C.H. and Mei, S.C., 2006,“Effects of Fabrication Processes and Material Parameters of GDL on Cell Performance of PEM Fuel Cell,” Int. J. Hydrogen Energy, accepted.
68.Cheng, C.H. and Lin, H.H., “Measurement of Surface Tension of Epoxy Resins Used in Dispensing Process for Manufacturing Thin Film Transistor-Liquid Crystal Displays,”IEEE Transactions on Advanced Packaging, accepted.
69.Cheng, C.H., Lin, H.H., and Lai, G.J., “Numerical Prediction of Effects of Nafion Loading in Catalyst Layer on Performance of Proton Exchange Membrane Fuel Cells,” Journal of Power Sources, accepted.
70.Cheng, C.H., Lin, H.H., and Lai, G.J., “Design for Geometric Parameters of PEM Fuel Cell by Integrating Computational Fluid Dynamics Code with Optimization Method,” Journal of Power Sources, accepted.
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