“Computer Simulations in Compact Heat Exchanger,” B. Sunden and M. Faghri published by Computational Mechanics Publications, ISBN 1-85312-448-6, 1998.
“Modeling of Engineering Heat Transfer Phenomena,” M. Faghri and B. Sunden published by WIT Press, ISBN 1-85312-450-8, 1999.
“Heat Transfer in Gas Turbine Systems,” B. Sunden and M. Faghri published by WIT Press, ISBN 1-85312-666-7, 2001.
“Heat and Fluid Flow in Microscale and Nanoscale Structures,” M. Faghri and B. Sunden published by WIT Press, ISBN 1-85312-893-7, 2004.
“Modeling and Simulation of Turbulent Heat Transfer,” M. Faghri and B. Sunden published by WIT Press, 2005.
“Transport Phenomena in Fuel Cells,” M. Faghri and B. Sunden published by WIT Press, ISBN 1-85312-840-6, 2005.
“Transport Phenomena in Fires,” M. Faghri and B. Sunden to be published by WIT Press, 2006.
1. C.E. Smith, M. Faghri, and J.R. Welty, “On the Determination of Temperature Distribution in Laminar Pipe Flow with a Step Change in Wall Heat Flux,” ASME J. Heat Transfer 97, 137, 1975.
2. M. Faghri and J.R. Welty, “Analysis of Heat Transfer for Laminar Power Law Pseudo Plastic Fluids in a Tube with an Arbitrary Circumferential Wall Heat Flux,” AIChE J. 23, 288, 1977.
3. M. Faghri and J.R. Welty, “Analysis of Heat Transfer, Including Axial Fluid Conduction,” Int. J. Heat Mass Transfer 21, 317, 1978.
4. M. Faghri, A. Faghri and K. Javdani, “Heat Transfer with Laminar Pulsating Flow in a Pipe,” Letters in Heat and Mass Transfer J. 6, 259, 1979.
5. M. Faghri, “An Eigenfunction Expansion Arising in the Analysis of Heat Transfer in a Fluid-Carrying Pipe,” Reg. J. Energy Heat Mass Transfer 1 (2), 117, 1979.
6. E.M. Sparrow and M. Faghri, “Natural Convection Heat Transfer for the Upper Plate of a Collinear, Separated Pair of Vertical Plates,” ASME J. Heat Transfer 102, 623, 1980.
7. M. Faghri and E.R.G. Eckert, “Moisture Migration Caused by Periodic Temperature Fluctuations in an Unsaturated Porous Medium,” Warme-und Stoffubertragung 14, 217, 1980.
8. E.R.G. Eckert and M. Faghri, “A General Analysis of Moisture Migration Caused by Temperature Differences in an Unsaturated Porous Medium,” Int. J. Heat Mass Transfer 23, 1613, 1980.
9. E.M. Sparrow and M. Faghri, “Fluid-to-Fluid Conjugate Heat Transfer for a Vertical Pipe --Internal Forced Convection and External Natural Convection,” ASME J. Heat Transfer 102, 402, 1980.
10. M. Faghri and E.M. Sparrow, “Forced Convection in a Horizontal Pipe Subjected to Nonlinear External Natural Convection and to External Radiation,” Int. J. Heat Mass Transfer 23, 861, 1980.
11. M. Faghri and E.M. Sparrow, “Parallel and Counter Flow Condensation on an Internally Cooled Vertical Tube,” Int. J. Heat Mass Transfer 23, 55, 1980.
12. M. Faghri and E.M. Sparrow, “Simultaneous Wall and Fluid Axial Conduction in Laminar Pipe-Flow Heat Transfer,” ASME J. Heat Transfer 102, 58, 1980.
13. A. Faghri, M. Faghri, and K. Javdani, “The Effect of Flow Pulsation in Laminar Heat Transfer between Parallel Plates,” Warme-und Stoffubertragung 13, 97, 1980.
14. E.M. Sparrow and M. Faghri, “A Wall Plume Fed by the Discharge of a Vertical Channel,” Numerical Heat Transfer, 6, 303, 1983.
15. M. Faghri, E.M. Sparrow, and A.T. Prata, “Finite-Difference Solutions of Convection-Diffusion Problems in Irregular Domains, Using a Non-Orthogonal Coordinate Transformation,” Numerical Heat Transfer 7, 183, 1984.
16. Y. Asako, H. Nakamura, and M. Faghri, “Heat Transfer and Pressure Responses to Rounding of Peaks in Converging Diverging Duct,” JSME, Vol. 52, No. 477, 2170, 1986.
17. M. Faghri and Y, Asako, “Periodic, Fully Developed, Natural Convection a Channel with Corrugated Confining Walls,” Int. J. Heat Transfer, Vol. 29, No.12, pp. 1931-1936, 1986.
18. E.R.G. Eckert and M. Faghri, “Viscous Heating of High Prandtl Number Fluids with Temperature Dependent Viscosity,” invited paper published in a book entitled, Festschrift for Warren M. Rohsenow on the occasion of his 65th birthday (1985), Int. J. Heat Mass Transfer 29 (8), 1177, 1183, 1986.
19. M. Faghri and E.R.G. Eckert, “A Parametric Analysis of Moisture Migration in an Unsaturated Porous Slab Caused by Convective Heat and Mass Transfer,” Warme-und Stoffubertragung 20, 77, 1986.
20. Y. Asako and M. Faghri, “Finite-Volume Solutions for Laminar Flow and Heat Transfer in a Corrugated Duct,” ASME J Heat Transfer 109, 627, 1987.
21. M. Faghri and Y. Asako, “Numerical Determination of Heat Transfer and Pressure Drop Characteristics for Converging-Diverging Flow Channel,” ASME J. Heat Transfer 109, 606, 1987.
22. J.K. Tapply, M. Faghri, and F.M. White, “Unsteady Laminar Flow in the Entrance Region of a Cylindrical Pipe with a Step Change in Pumping Pressure,” Journal of Fluids Engineering, 1987.
23. M. Faghri and
24. Y. Asako, H. Nakamura, and M. Faghri, “Heat Transfer and Pressure Drop Characteristics in Converging-Diverging Duct with Rounded Corners,” Heat Transfer Japanese Research, Vol. 16, No. 5, pp. 56-69, 1987.
25. M. Faghri and
26. Y. Asako and M. Faghri, “Three-Dimensional Laminar Heat Transfer and Fluid Flow Characteristics in the Entrance Region of a Rhombic Duct,” ASME J. Heat Transfer 110, 885, 1988.
27. Y. Asako and M. Faghri, “Three-Dimensional Heat Transfer and Fluid Flow Analysis of Arrays of Rectangular Blocks Encountered in Electronic Equipment,” Numerical Heat Transfer, 13, pp. 481-498, 1988.
28. Y. Asako, H. Nakamura, and M. Faghri, “Heat Transfer and Pressure Drop Characteristics in a Corrugated Duct with Rounded Corners,” Int. J. Heat Mass Transfer, 31 (6), pp. 1237-1245, 1988.
29. Y. Asako and M. Faghri, “Developing Laminar Flow and Heat Transfer in the Entrance Region of Regular Polygonal Ducts,” Int. J, Heat Mass Transfer, 31 (12), pp. 2590-2593, 1988.
30. M. Faghri and Y. Asako, “Three-Dimensional Laminar Natural Convection in Horizontal Hexagonal Honeycomb Enclosure,” Numerical Heat Transfer, 15, pp. 67-86, 1989.
31. Y. Asako and M. Faghri, “Three-Dimensional Heat Transfer Analysis of Arrays of Heated Square Blocks,” Int. Journal of Heat Transfer, 32 (2), pp. 395-405, 1989.
32. R. C. Lessmann, M. Faghri, A. Khan and M. Zia, “Predicting Particle Capture in Fibrous Filters by a Unified Trajectory Mapping Approach,” Filtration and Separation 27 (4), pp. 289-291, 1990.
33. N. Rao and M. Faghri, “Computer Modeling of Electrical Enhancement of Aerosol Filtration by Fibrous Filters,” J. of Aerosol Science and Technology, 13: 127-143, 1990.
34. Y. Asako, H. Nakamura, and M. Faghri, “Three-Dimensional Natural Convection in a Vertical Air Slot with Hexagonal Honeycomb Core,” ASME J. Heat Transfer, Vol. 112, No.1, pp. 130-136, 1990.
35. Y. Asako, H. Nakumura, and M. Faghri, “Natural Convection in a Vertical Heated Tube Attached to a Thermally Insulated Chimney of a Different Diameter,” ASME J. of Heat Transfer, Vol. 112, No. 3, pp. 790-793, 1990.
36. Y. Asako and M. Faghri, “Numerical Solutions of Convection-Diffusion Problems in Irregular Domains Using a Coordinate Transformation which Yields a Circular Domain,” AIAA Journal of Thermophysics and Heat Transfer, 5(1), pp.103-109, 1991.
37. Y. Asako, H. Nakamura, S. Toyoda, and M. Faghri, “Numerical Analysis of Two-Dimensional Transient Freezing in a Spheroidal Capsule,” ASME J. of Heat Transfer, Vol. 113, No. 4, pp. 1017-10120, 1991.
38. Y. Asako, H. Nakamura, Z. Chan, and M. Faghri, “Three-Dimensional Laminar Convection in an Inclined Air Slot with a Hexagonal Honeycomb Core,” ASME J. of Heat Transfer, Vol. 113, No. 4, pp. 906-911, 1991.
39. Jae-Heon Lee, Y.R. Back, and M. Faghri, “Natural Convection in Enclosures with an Irregular Wall,” Transport Phenomena in Heat and Mass Transfer, Edited by J.A. Reizes, pp. 112 - 123, 1992.
40. Y. Asako, H. Nakamura, Y. Yamaguchi, and M. Faghri, “Three-Dimensional Natural Convection in a Vertical Porous Layer with Hexagonal Honeycomb Core,” ASME Journal of Heat Transfer, Vol. 114, No. 4, pp. 924-927, 1992.
41. M. Faghri, et. al., “Sedimentary Furrows and Organized Flow Structure: A Study in
42. Jae-Heon Lee, Y. R. Back, and M. Faghri, “Natural Convection in Enclosures with an Irregular Wall,” 4th International Symposium on Transport Phenomena in Heat and Mass Transfer, Transport Phenomena in Heat and Mass Transfer, Edited by J. A. Reizes, pp. 112-123, 1992.
43. M. Faghri, et. al., “Numerical Study of 3-D Mixing of a Cold Jet with a Transverse Plasma Stream,” Int. J. Heat Mass Transfer, Vol. 36, No. 16, pp. 3897-3907, 1993.
44. Y. Yamaguchi, Y. Asako, H. Nakamura, and M. Faghri, “Three-Dimensional Natural Convection in Vertical Porous Layers with Hexagonal Honeycomb Core of Negligible Thickness,” Int. J. Heat Mass Transfer, Vol. 36, No. 13, pp. 3403-3406, 1993.
45. Y. Asako, M. Faghri, M. Charmchi, and P.A. Bahrami, “Numerical Solution for Melting of Unfixed Rectangular Phase-Change Material Under Low-Gravity Environment,” Numerical Heat Transfer, Part A, Vol. 25, 191-208, 1994.
46. M. Molki, M. Faghri, and O. Ozbay, “A New Correlation for Pressure Drop in Arrays of Rectangular Blocks in Air-Cooled Electronic Units,” ASME J. of Fluids Engineering, Vol. 116, 856-86, 1994.
47. Y. Asako and M. Faghri, “Parametric Study of Turbulent Three-dimensional Heat Transfer of Arrays of Heated Blocks Encountered in Electronic Equipment,” Int. J. Heat Mass Transfer, Vol. 37, No. 3, pp.469-478, 1994.
48. M. Faghri, “Prediction of Turbulent Three-Dimensional Heat Transfer of Heated Blocks Using Low-Reynolds Number Two-Equation Model,” Numerical Heat Transfer, Part A, 26:87-101, 1994.
49. M. Molki and M. Faghri, “Conjugate Natural Convection Heat Transfer in a Vertical Annulus with Internal Circumferential Fins,” Numerical Heat Transfer, Part A, Vol. 25(4), 457-476, 1994.
50. M. Faghri, Y. Asako, G.M. Berard, and A. Chaboki, “Unsteady Laminar Natural Convection, Radiation and Conduction within an Enclosure with an Obstruction,” Int. J. of Science and Technology (Scientia Iranica) Vol. 1, No. 1, pp. 85-95, 1994.
51. Y. Asako, Y. Yamaguchi, L. Chen, and M. Faghri, “Combined Natural Convection and Radiation Heat Transfer in a Vertical Air Layer With a Hexagonal Honeycomb Core of Negligible Thickness,” Journal of Engineering Thermophysics, Vol. 15, No. 3, PP.304-310, 1994.
52. M. Molki, M. Faghri, and O. Ozbay, “A Correlation for Heat Transfer and Wake Effect in the Entrance Region of An Array of Rectangular Modules Simulating Electronic Components,” ASME J. of Heat Transfer, Vol. 117, 40-46, 1995.
53. M. Molki and M. Faghri, “Interaction Between a Buoyancy-Driven Flow and An Array of Annular Cavities,” Invited Paper, Indian Academy of Sciences, Sadhana, Vol. 19, Part 5, pp.705-721, 1994.
54. Y. Asako and M. Faghri, “Prediction of Turbulent Heat Transfer in the Entrance of An Array of Heated Blocks Using Low-Reynolds Number,” Numerical Heat Transfer, Part A, Vol. 28, pp.263-273, 1995.
55. Y. Asako, Y.Yamaguchi, T. Yamanaka, and M. Faghri, “Unsteady Three dimensional Natural Convection in an Inclined Air Slot with Hexagonal Honeycomb Core,” ASME J. of Heat Transfer, Vol. 117, No. 3, pp. 634-640, 1995.
56. M. Faghri, M. Molki, J. Chrupcala, and Y. Asako, “Entrance Analysis of Turbulent Flow in an Array of Heated Rectangular Blocks,” IEEE Transactions on Components, Packaging, and Manufacturing Technology, Part A, Vol. 18, pp. 546-552, No 3, 1995.
57. M. Faghri, B. Sunden, and E.J. Kenyon, “An Overview of Fabrication Methods and Fluid Flow and Heat Transfer Characteristics of Micro Channels,” Advances in Engineering Heat Transfer, Computational Mechanics Publications, 3-23, 1995.
58. M. Faghri, M. Molki, and Y. Asako, “Entrance Design Correlations for Circuit Boards in ForcedAir Cooling,” Air Cooling Technology for Electronic Equipment, CRC Press, 1996.
59. H. Zhang, M. Faghri, and F.M. White, “A New Low-Reynolds-Number k-, Model for Turbulent Flow Over Smooth and Rough Surfaces,” ASME J. of Fluids Engineering, Vol. 118, pp. 255-259,1996.
60. Y. Asako, Y. Yamaguchi, L. Chen, and M. Faghri, “Combined Natural Convection and Radiation Heat Transfer in a Vertical Air Cavity with Hexagonal Honeycomb Core of Negligible Thickness,” Numerical Heat Transfer, Part A, Vol. 30, pp. 73-85, 1996.
61. A. Khan, M. Faghri, and R.C. Lessmann, “Three Dimensional Microstructural Offset Screen Model for Prediction of Filtration Phenomena in Real Fibrous Filter Media: Pressure Drop Study,” J. of Aerosol Science and Technology, 1996.
62. A. Khan, M. Faghri, and R. C. Lessmann, “Three Dimensional Microstructural Offset Screen Model for Prediction of Filtration Phenomena in Real Fibrous Filter Media: Particle Capture Study,” J. of Aerosol Science and Technology, 1996.
63. L. C. Yang, Y. Asako, and M. Faghri, “Numerical Prediction of Transitional Characteristics of Flow and Heat Transfer in a Corrugated Duct,” ASME J. of Heat Transfer, Vol. 118, pp. 62-69, 1997.
64. H. P. Kavepour, M. Faghri, and Y. Asako, “Effects of Compressibility and Rarefaction on Gaseous Flows in Micro Channels,” Numerical Heat Transfer, Part A, 32:677-696, 1997.
65. A. Shirvanian, M. Faghri, and Z. Zhang, “Numerical Solution of the Effect of Vibration on Melting of Unfixed Rectangular Phase-Change Material Under Variable-Gravity Environment,” Numerical Heat Transfer, Part A, 34:257-278, 1998.
66. L. Quan, Z. Zhang, and M. Faghri, “Effects of Vibration on Ice Contact Melting Within Rectangular Enclosures,” ASME J. of Heat Transfer, Vol. 120, pp. 518-520, 1998.
67. Y. Asako, Y. Yamaguchi, and M. Faghri, “Numerical and Experimental Prediction of Transitional Characteristics of Flow and Heat Transfer in an Array of Heated Blocks,” ASME Journal of Electronic Packaging, Vol. 121, pp.202-208, 1999.
68. L. Quan, Z. Zhang, and M. Faghri, “Effect of Vibration on Ice and Octadecane Melting in Rectangular Enclosures,” J. of Thermophysics & Heat Transfer, Vol. 13(1), pp. 166-168, 1999.
69. A. Asako and M. Faghri, “Effect of Density Change on Melting of Unfixed Rectangular Phase-Change Material Under Low-Gravity Environment,” Numerical Heat Transfer, Part a, Vol. 36, pp.825-838, 1999.
70. M. Molki and M. Faghri, “Temperature of In-Line Array of Electronic Components,” Electronics Cooling Magazine, Vol. 6(2), pp. 26-32, 2000.
71. Y. Yamaguchi, Y. Asako, and M. Faghri, “Natural Convection and Radiation Heat Transfer in a Vertical Porous Layer with a Hexagonal Honeycomb Core,” Heat Transfer Asian Research, 28(4), pp. 278-294,1999.
72. H. Sun and M. Faghri, “Analysis and Validation of One-Dimensional Models for Gaseous Flows in Micro-channel” Journal of Fluids Engineering, Vol. 122, pp. 440-442, 2000.
73. H. Sun and M. Faghri, “Effects of Rarefaction and Compressibility of Gaseous flow in Micro-channel Using DSMC,” Numerical Heat Transfer, Part A, Vol. 38, pp.153-168, 2000.
74. R. Sayegh, M. Faghri, Y. Asako, and B. Sunden, “Direct Simulation Monte Carlo of Gaseous Flow and Heat Transfer in Micro-channel,” accepted for publication in CMP, 2003.
75. Y. Asako, E. Goncalves, M. Faghri, and M. Charmchi, “Numerical Solution of Melting Processes For Fixed and Unfixed Phase Change Material in the Presence of Magnetic Field--Simulation of Low-Gravity Environment,” Numerical Heat Transfer, Part A, Vol. 42, pp. 1-19, 2002.
76. H. Sun and M. Faghri, “Effect of Surface Roughness on Nitrogen Flow in Micro-Channel Using Direct Simulation
77. Y. Asako, T. Pi, S. Turner, and M. Faghri, “Effect of Compressibility on Gaseous Flows in Micro-Channels,” Int. J. of Heat & Mass Transfer, Vol. 46, pp. 3041-3050, 2003.
78. S. Turner, L.C. Lam, O. J. Gregory, and M. Faghri, “Experimental Investigation of Gas Flow in Microchannels,” ASME Journal of Heat Transfer, Vol.126, pp. 753-763, 2004.
79. E. Goncalves, M. Faghri, Y. Asako, and M. Charmchi, “Numerical Solution of Melting Processes for Unfixed Phase Change Material in the Presence of Electromagnetically Simulated Low Gravity,” Numerical Heat Transfer, Part A, Vol. 46, pp. 343-365, 2004.
80. E. Goncalves, M. Faghri, Y. Asako, and M. Charmchi, “Numerical Solution of Melting in Side-Heated Rectangular Enclosure under Electromagnetically Simulated Low Gravity,” Numerical Heat Transfer, Part A, Vol. 47, pp. 315-332, 2005.
81. R. Jia, B. Sunden and M. Faghri, “Computational Analysis of Heat Transfer Enhancement in Square Ducts with V-Shaped Ribs: Turbine Blade Cooling, ASME Journal of Heat Transfer, Vol. 127, pp. 425-433, 2005.
82. D. L. Veilleux, E. Goncalves, M. Faghri, Y. Asako and M. Charmchi, “ Phase Change in
83. D. L. Veilleux, E. Goncalves, M. Faghri, Y. Asako and M. Charmchi, “Phase Change in a Three-Dimensional Rectangular Cavity Under Electromagnetically Simulated Low Gravity: Sidewall Heating,” Int. J. of Numerical Methods for Heat & Fluid Flow, Vol. 15, No. 7,pp. 710-739, 2005.
84. S. E. Turner, Y. Asako and M. Faghri, “Convection Heat Transfer in Microchannels with High Speed Gas Flow,” Accepted for publication to ASME Journal of Heat Transfer, 2005.
85. D. L. Veilleux, E. Goncalves, M. Faghri, Y. Asako and M. Charmchi, “Convection