transactions of the asme, journal of heat transfer 81 xix 7 · "an experimental and...
TRANSCRIPT
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RALPH GREIF
ARCHIVE JOURNAL AND INTERNATIONAL CONFERENCE PUBLICATIONS
1. “Heat Transfer to a Boiling Liquid: Mechanism and Correlation,” K.E. Forster and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 81, 43-53, (1959).
2. Hydrodynamic Inertia Coefficients for a Slender Body with a Sail," T.R. Goodman and R. Greif,
Quarterly of Applied Mathematics, XIX, 137-141, (1961).
3. "Energy Transfer by Radiation and Conduction with Variable Gas Properties," R. Greif, International Journal of Heat and Mass Transfer, 7, 891-900, (1964).
4. "On the Transition from Black-Body to Rosseland Formulations in Optically Thick Flows," C.L.
Tien and R. Greif, International Journal of Heat and Mass Transfer, 7, 1145-1146, (1964).
5. "Couette Flow of a Radiating and Conducting Gas," American Institute of Aeronautics and Astronautics Journal, R. Greif, 3, 98-102, (1965).
6. "Measurements in a Free Piston Shock Tube," A.E. Bryson, Jr. and R. Greif, American Institute
of Aeronautics and Astronautics Journal, 3,183-184, (1965).
7. "Plane Poiseuille Flow of a Radiating and Conducting Gas," American Institute of Aeronautics and Astronautics Journal, R. Greif, 3, 1340-1341, (1965).
8. "Measurements of the Thermal Conductivity of Helium in the Temperature Range 1600 to 6700
Degrees Kelvin," D.J. Collins, R. Greif and A.E. Bryson, Jr., International Journal of Heat and Mass Transfer, 8, 1209-1216, (1965).
9. "Heat Transfer with Gas Injection at the Surface," International Journal of Heat and Mass
Transfer, R. Greif, 8, 1253-1254, (1965).
10. "Heat Transfer with Isotropic Scattering," Journal of Quantitative Spectroscopy and Radiative Transfer, R. Greif, 15, 51-58, (1966).
11. "Radiant Heat Transfer Between Concentric Cylinders," R. Greif and G. Clapper, Applied
Scientific Research, 15, 469-474, (1966).
12. "Radiation From an Isothermal Hydrogen Plasma at Temperatures up to 40,000 K," L. Lasher, K. Wilson and R. Greif, Journal of Quantitative Spectroscopy and Radiative Transfer, 7, 305-322, (1965).
13. "Heat Transfer Between Parallel Plates Including Radiation and Rarefaction Effects," R. Greif
and D.R. Willis, International Journal of Heat and Mass Transfer, 10 , 1040-1048, (1967).
14. "Semi-isotropic Model for Radiation Heat Transfer," C.S. Landram and R. Greif, American Institute of Aeronautics and Astronautics Journal, 5, 1971-1975, (1967).
15. "Radiation Transport in Atomic Plasmas," K.H. Wilson and R. Greif, Journal of Quantitative
Spectroscopy and Radiative Transfer, 8 ,1061-1086, (1968).
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16. "Nongray Radiation Heat Transfer in the Optically Thin Region," R. Greif, Transactions of the
ASME, Journal of Heat Transfer, 90, 363-365, (1968).
17. "Heat Transfer in a Growing Vapor Film," R. Greif and A.E. Kassem, Zeitschrift fur Angewandte Mathematik und Physik, 19, 824-829, (1968).
18. "Infrared Radiation Transport: Exact and Approximate Results," R. Greif and I.S. Habib,
Transactions of the ASME, Journal of Heat Transfer, 91, 282-284, (1969).
19. "Heat Transfer in Turbulent Pipe Flow with Optically Thin Radiation," C.S. Landram, R. Greif and I.S. Habib," Transactions of the ASME, Journal of Heat Transfer, 91, 330-336, (1969).
20. "Evaporation Retardation by Monolayers," R. Kappesser, R. Greif and I. Cornet, Science, 166,
403, (1969).
21. "Heat Transfer in Turbulent Flow with Radiation for Small Optical Depths," R. Greif and I.S. Habib, Applied Scientific Research, 22, 31-43, (1970).
22. “Nongray Radiative Transport in a Cylindrical Medium," I.S. Habib and R. Greif, Transactions
of the ASME, Journal of Heat Transfer, 92, 28-32, (1970).
23. "Heat Transfer to a Flowing Nongray Radiating Gas: An Experimental and Theoretical Study," I.S. Habib and R. Greif, International Journal of Heat and Mass Transfer, 13, 1571-1582, (1970).
24. “Laminar Convection of a Radiating Gas in a Vertical Channel," R. Greif, I.S. Habib and J.C.
Lin, Journal of Fluid Mechanics, 46, 513-520, (1970).
25. "Influence of Optically Thin Radiation on Heat Transfer in the Thermal Entrance Region of a Narrow Duct," R. Greif and D.M. McEligot, Transactions of the ASME, Journal of Heat Transfer, 93 ,473-475, (1971).
26. "The Separability Approximation in Nonhomogenous Gases," K.H. Wilson and R. Greif,
Journal of Quantitative Spectroscopy and Radiative Transfer, 11, 1245-1263, (1971).
27. "Mass Transport to a Rough Rotating Cylinder," R. Kappesser, I. Cornet and R. Greif, Journal of Electrochemical Society, Electrochemical Science, 118, 1957-1959, (1971).
28. "Thermally Developing Laminar Flows with Radiative Interaction Using the Total Absorptance
Model," R. Greif and D.M. McElilgot, Applied Scientific Research, 25, 234-244, (1971).
29. "Diffusivity of Oxygen in a Non-Newtonian Saline Solution," R. Greif, I. Cornet and R. Kappesser, International Journal of Heat and Mass Transfer, 15, 593-597, (1972).
30. "Laminar Counterflow Exchangers; An Approximate Account of Wall Resistance and Variable
Transfer Coefficients," R.A. Seban, T.C. Hsieh and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 94, 391-396, (1972).
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31. "Transport in Non-Newtonian Flow," R. Kappesser, I. Cornet and R. Greif, Journal of Electrochemical Society, 119 717-718, (1972).
32. "Theoretical Determination of the Absorption Coefficient and Total Band Absorptance
Including a Specific Application to Carbon Monoxide," T.C. Hsieh and R. Greif, International Journal of Heat and Mass Transfer, 15, 1477-1487, (1971).
33. "Heat Transfer to Steam Flowing Turbulently in a Pipe," Z. Chiba and R. Greif, International
Journal of Heat and Mass Transfer, 16 , 1646-1648, (1973).
34. "Experimental and Theoretical Results for Mass Transfer to a Rotating Cone in a Non-Newtonian Solution," J.A. Paterson, R. Greif and I. Cornet, International Journal of Heat and Mass Transfer, 16 , 1017-1024, (1973).
35. "Approximate Method for Absorption at High Temperatures," J.C. Lin and R. Greif,
International Journal of Heat and Mass Transfer, 16, 1805-1807, (1973).
36. "Theoretical Determination of Absorption with an Emphasis on High Temperatures and a Specific Application to Carbon Monoxide," J.C. Lin and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 95 , 535-538, (1973).
37. "Transport to a Rotating Disk in Turbulent Flow at High Prandtl or Schmidt Numbers," J.A.
Paterson and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 95, 566-568, (1973).
38. "Mass Transfer to a Rotating Disk in a Non-Newtonian Fluid," J.A. Paterson and R. Greif,
Physics of Fluids, 16, 1816-1817, (1973).
39. "Evaporation Retardation by Monolayers," R. Greif, Water Resources Research, 9, 1679-1680, (1973).
40. "Mass Transfer to Rotating Cones," R. Kappesser, R. Greif and I. Cornet, Applied Scientific
Research, 28, 442-452, (1973).
41. "Total Band Absorptance of Carbon Dioxide and Water Vapor Including the Effects of Overlapping," J.C. Lin and R. Greif, International Journal of Heat and Mass Transfer, 17, 791-795, (1974).
42. "Total Band Absorptance of Nonisothermal Radiation Gases," J.C. Lin and R. Greif, Fifth
International Heat Transfer Conference, ASME, 1, 1-5, (1974).
43. "Laminar Forced Convection Over Rotating Bodies," B.T. Chao and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 96, 463-466, (1974).
44. "Laminar Convection to Rotating Cones and Disks in Non-Newtonian Power-Law Fluids," R.N.
Smith and R. Greif, International Journal of Heat and Mass Transfer, 18, 1249-1253, (1975).
45. "Shock Tube Measurements of the Emission of Carbon Dioxide in the 2.7 Micron Region," T.C. Hsieh, A. Hashemi and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 97, 397-399, (1975).
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46. "Turbulent Transport to a Rotating Cylinder for Large Prandtl or Schmidt Numbers," R.N.
Smith and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 97, 594-598, (1975).
47. "Laminar Convection with an Absorbing and Emitting Gas," T.E. Donovan and R. Greif, Applied Scientific Research, 31, 110-122, (1975).
48. "Theoretical Determination of Band Absorption with Specific Application to Carbon Monoxide
and Nitric Oxide," A. Hashemi, T.C. Hsieh and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 98, 432-437, (1976).
49. "Turbulent Transport to a Rotating Cylinder," J.T. Teng and R. Greif, Letters in Heat and Mass
Transfer, 3, 365-373, (1976).
50. "Infrared Radiation Properties of Nitrous Oxide in the 4.5 Micron Region," M.Nikanjam and R. Greif, International Journal of Heat and Mass Transfer, 20, 1262-165, (1977).
51. "UCB Experimental Study of Reflood Heat Transfer," D. Abdollahian, R. Greif, E. Elias, W.T.
Peake, R.A. Seban, G. Yadigaroglu and K. Yu, Transactions of the American Nuclear Society, 27, 609-611, (1977).
52. "An Experimental and Theoretical Study of Heat Transfer in Vertical Tube Flows," R. Greif,
Transactions of the ASME, Journal of Heat Transfer, 100, 86-91, (1978).
53. "Theoretical Determination of Band Absorption for Nonrigid Rotation with Applications to CO, NO, N2O and CO2," K.H. Chu and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 100, 230-234, (1978).
54. "Heat Transfer During Piston Compression," M. Nikanjam and R. Greif, Transactions of the
ASME, Journal of Heat Transfer, 100, 523-530, (1978).
55. "Laminar Convection with Radiation: Experimental and Theoretical Results," R. Greif, International Journal of Heat and Mass Transfer, 21, 477-480, (1978).
56. "Transient Behavior of Natural Circulation Loops; Two Vertical Branches with Point Heat
Source and Sink," Y. Zvirin and R. Greif, International Journal of Heat Transfer, 22, 499-504, (1979).
57. "Study of Heat and Mass Transfer in Pipe Flows with Non-Newtonian Fluids," J.T. Teng, R.
Greif, I. Cornet and R.N. Smith, International Journal of Heat and Mass Transfer, 22, 493-498, (1979).
58. "Heat Transfer During Piston Compression Including Side Wall and Convection Effects," R.
Greif, T. Namba and M. Nikanjam, International Journal of Heat and Mass Transfer, 22 ,
59. "The Transient and Stability Behavior of a Natural Convection Loop," A. Mertol, R. Greif and Y. Zvirin, Transactions of the ASME, Journal of Heat Transfer, 100, 684-688, (1979).
60. "A System for the Experimental Study of Flash Evaporation," N. Lior and R. Greif,
Desalination, 31, 87-99, (1979).
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61. "Mass Transfer to Rotating Rods and Plates," ith I. Cornet, R. Greif, J.T. Teng and F. Roehler,
International Journal of Heat and Mass Transfer, 23, 805-812, (1980).
62. "Heat Transfer in a Rotating Disk Evaporator," C.S. Wang, R. Greif and A.D.K. Laird, Desalination, 33, 259-267, (1980).
63. "Some Basic Observations on Heat Transfer and Evaporation in the Horizontal Flash
Evaporator," N. Lior and R. Greif, Desalination, 33, 269-286, (1980).
64. "The Transient, Steady State and Stability Behavior of a Thermosyphon with Throughflow," A. Mertol, R. Greif and Y. Zvirin, International Journal of Heat and Mass Transfer, 24, 621-633, (1981).
65. "The Effect of Impingement on Heat Transfer in Rotating Condensation," C.S. Wang and R.
Greif, International Journal of Heat and Mass Transfer, 24, 1097-1104, (1981).
66. "Detailed Loop Model Analysis of Liquid Solar Thermosyphons with Heat Exchangers," A. Mertol, W. Place, T. Webster and R. Greif, Solar Energy, 27, 367-386, (1981).
67. "Natural Convection in Undivided and Partially Divided Rectangular Enclosures," M. Nansteel
and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 103, 623-629, (1981).
68. "Heat Transfer During the Shock-Induced Ignition of an Explosive Gas," H. Heperkan and R. Greif, International Journal of Heat and Mass Transfer, 25, 267-276, (1981).
69. "Two-Dimensional Study of Heat Transfer and Fluid Flow in a Natural Convection Loop," A.
Mertol, R. Greif and Y. Zvirin, Transactions of the ASME, Journal of Heat Transfer, 104 , 508-514, (1982).
70. "Study of a Thermosyphon with a Counter-Flow Heat Exchanger," A. Mertol and R. Greif,
Seventh International Heat Transfer Conference, ASME, 2 ,239-244, (1982).
71. "The Effect of Orientation on the Heat Transfer from a Flat Surface in an Air Fluidized Bed," K.K. Kellogg, B. Rubinsky and R. Greif, International Journal of Heat and Mass Transfer, 26, 151-153, (1983).
72. "The Transient, Steady-State, and Stability Behavior of a Toroidal Thermosyphon with a
Parallel-Flow Heat Exchanger," A. Mertol, R. Greif and A.T. Giz, Transactions of the ASME, Journal of Solar Energy Engineering, 105 , 58-65, (1983).
73. "Natural Convection Heat Transfer in Complex Enclosures at Large Prandtl Numbers," M.W.
Nansteeland R. Greif, Transactions of the ASME, Journal of Heat Transfer, 105, 912-915, (1983).
74. "A Study of the Variation of the Pressure in a Natural Circulation Loop," A. Mertol, A. Lavine
and R. Greif, International Journal of Heat and Mass Transfer, 24 , 626-630, (1984).
75. "Two-Dimensional Analysis of Transient Flow and Heat Transfer in a Natural Circulation Loop," A. Mertol, Y. Zvirin and R. Greif, Warme und Stoffubertragung, 18, 89-98, (1984).
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76. "An Investigation of Natural Convection in Enclosures with Two and Three Dimensional
Partitions," M.W. Nansteel and R. Greif, International Journal of Heat and Mass Transfer, 27, 561-572, (1984).
77. "An Investigation of Laminar Mixed Convection Inside a Horizontal Tube with Isothermal Wall
Conditions," J.P. Coutier and R. Greif, International Journal of Heat and Mass Transfer, 28, 1293-1305, (1985).
78. "A Method for the Solution of Heat Transfer Problems with a Change of Phase," D. Frederick
and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 107, 520-526, (1985).
79. "Unsteady Heat Transfer During Laminar Flame Quenching," S.R. Vosen, R. Greif and C.K. Westbrook, Twentieth International Symposium on Combustion, The Combustion Institute, 20 , 75-83, (1985).
80. "A Study of Heat Transfer During Arc Welding," M. Salcudean, M. Choi and R. Greif,
International Journal of Heat and Mass Transfer, 29, 215-225, (1986).
81. "Mixed Laminar Convection in a Horizontal Tube with Natural Convection around its Boundaries," J.P. Coutier and R. Greif, International Journal of Heat and Mass Transfer, 29, 391-402, (1986).
82. "A Three Dimensional Analysis of Natural Convection in a Toroidal Loop -The Effect of Tilt
Angle," A.S. Lavine, R. Greif and J.A.C. Humphrey, Transactions of the ASME, Journal of Heat Transfer, 108 , 796-805, (1986).
83. "Measurements in a Natural Convection Loop," C. Stern and R. Greif, Warme und
Stoffubertragung," 21 , 277-282, (1987).
84. "A Three Dimensional Analysis of Natural Convection in a Toroidal Loop -The Effect of Grashof Number," A.S. Lavine, R. Greif and J.A.C. Humphrey, International Journal of Heat and Mass Transfer, 29, 251-262, (1987)
85. "Radiative Transfer in a Solar Absorbing Particle Laden Flow," W.G. Houf and R. Greif,
Chemical Engineering Communications, 51, 153-165, (1987)
86. "The Heat Transfer Problem for the Modified Chemical Vapor Deposition Process," M. Choi, H.R. Baum and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 109, 642-646, (1987)
87. "Gas Particle Flow Within a High Temperature Cavity Including the Effects of Thermal
Radiation," G. Evans, W.G. Houf, C.T. Crowe and R. Greif, Transactions of the ASME, Journal of Solar Energy Engineering, 109, 134-142, (1987).
88. "A Study of the Heat Transfer During Arc Welding with Applications to Pure Metals or Alloys
and Low or High Boiling Temperature Materials," M. Choi, M. Salcudean, and R. Greif, Numerical Heat Transfer, 11, 477-489, (1987)
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89. "The Effects of Boundary Conditions on the Flow and Heat Transfer on a Rotating Disk Chemical Vapor Deposition Reactor," G. Evans and R. Greif, Numerical Heat Transfer, 12, 243-253, (1987).
90. "Heat Transfer During Laminar Flame Quenching: Effect of Fuels," W.M. Huang, S.R. Vosen
and R. Greif, Twenty First International Symposium on Combustion, The Combustion Institute, 21, 1853-1860, (1987).
91. "A Numerical Model of the Flow and Heat Transfer in a Rotating Disk Chemical Vapor
Deposition Reactor," G. Evans and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 109, 928-935, (1987).
92. "An Experimental Study of Natural Convection in a Toroidal Loop," C.H. Stern, R. Greif and
J.A.C. Humphrey, Transactions of the ASME, Journal of Heat Transfer, 110, 877-884, (1988).
93. "Forced Flow Near a Heated Rotating Disk: A Similarity Solution," G.H. Evans and R. Greif, Numerical Heat Transfer, 14, 373-387, (1988).
94. "Natural Circulation Loops," R. Greif, Transactions of the ASME, Journal of Heat Transfer,
50th Anniversary Issue, 110, 4(B), 1243-1258, (1988).
95. "A Study of Traveling Wave Instabilities in a Horizontal Channel Flow with Applications to Chemical Vapor Deposition," G. Evans and R. Greif, International Journal of Heat and Mass Transfer, 31, 895-912, (1989).
96. "Flow and Heat Transfer in the Space Between Two Corotating Disks in an Axisymmetric
Enclosure," C.J. Chang, C.A. Schuler, J.A.C. Humphrey and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 111, 625-632, (1989).
97. "A Study of Heat Transfer and Particle Motion During the Modified Chemical Vapor
Deposition Process," M. Choi, R. Greif and H.R. Baum, Transactions of the ASME, Journal of Heat Transfer, 111, 1031-1037 (1989).
98. “Unsteady Flow between Corotating Disks in an Enclosure with an Obstruction,” W.R. Usry,
C.A. Schuler, J.A.C. Humphrey and R. Greif, Fifth International Symposium on Application of Laser Techniques to Fluid mechanics, 27, 31-35 (1990).
99. "Experimental Simulation and Analytical Modeling of Two-Phase Flow Under Zero Gravity
Conditions," L.P. Wang, V.P. Carey, R. Greif and D. Abdollahian, International Journal of Multiphase Flow, 16 , 407-419, (1990).
100."Unsteady Convection in Channel Flows with Applications to Chemical Vapor Deposition," G.
Evans and R. Greif, Ninth International Heat Transfer Conference, ASME, 2, 471-476, (1990).
101."Analysis of Buoyancy and Tube Rotation Relative to the Modified Chemical Vapor Deposition Process," M. Choi, Y.T. Lin and R. Greif, Transactions of the ASME, Journal of Heat Transfer , 112, 1063-1069, (1990).
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102."Calculation of Turbulent Convection Between Corotating Disks in Axisymmetric Enclosures," C.J. Chang, J.A.C. Humphrey and R. Greif, International Journal of Heat and Mass Transfer, 33, 2701-2720, (1990).
103."On the Flow in the Unobstructed Space between Shrouded Corotating Disks," C.A. Schuler,
W. Usry, B. Weber, J.A.C. Humphrey and R. Greif, Physics of Fluids A: Fluid Dynamics, 2, 1760-1770, (1990).
104."Unsteady Heat Transfer During Side Wall Quenching of a Laminar Flame," J.H. Lu, O.
Ezekoye, R. Greif and R.F. Sawyer, Twenty-Third International Symposium on Combustion, The Combustion Institute , 23, 441-446, (1990).
105."Numerical Study of Two- and Three-Dimensional Flow and Heat Transfer Between a Fixed
Outer Cylinder and a Rotating Inner Cylinder with Cavities," with T. Hayase and J.A.C. Humphrey, Third International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, 1, 216-231 (1990).
106."A Three Dimensional Analysis of the Flow and Heat Transfer for the Modified Chemical
Vapor Deposition Process Including Buoyancy, Variable Properties and Tube Rotation," Y.T. Lin, M. Choi and R. Greif, Transactions of the ASME, Journal of Heat Transfer , 113 , 400-406, (1991).
107."Unsteady Three Dimensional Mixed Convection in a Heated Horizontal Channel with
Applications to Chemical Vapor Deposition," G. Evans and R. Greif, International Journal of Heat and Mass Transfer , 34, 2039-2052, (1991).
108."A Consistently Formulated QUICK Scheme for Fast and Stable Convergence Using Finite-
Volume Iterative Calculation Procedures," T. Hayase, J.A.C. Humphrey and R. Greif, Journal of Computational Physics, 98, 108-118, (1992).
109."The Unsteady Development of a Gas Tungsten Arc Weld Pool," M. Kanouff and R. Greif,
International Journal of Heat and Mass Transfer , 35, 967-979, (1992).
110."A Three Dimensional Analysis of Particle Deposition for the Modified Chemical Vapor Deposition (MCVD) Process," Y.T. Lin, M. Choi and R. Greif, Transactions of the ASME, Journal of Heat Transfer , 114, 735-742, (1992).
111."Modified Enthalpy Method Applied to Rapid Melting and Solidification," A.A. Rostami, R.
Greif and R.E. Russo, International Journal of Heat and Mass Transfer , 35, 2161-2172, (1992).
112."Flow and Heat Transfer to a Circular Cylinder with a Hot Impinging Air Jet," S.H. Kang and
R. Greif, International Journal of Heat and Mass Transfer, 35 , 2173-2184, (1992).
113.Calculation of Convective Heat Transfer between Rotating Coaxial Cylinders with Periodically Embedded Cavities," T. Hayase, J.A.C. Humphrey and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 114, 589-597, (1992).
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114."Increased Surface Temperature Effects on Wall Heat Transfer During Unsteady Flame Quenching," O. Ezekoye, R. Greif and R.F. Sawyer, Twenty-Fourth International Symposium on Combustion, The Combustion Institute, 24, 1465-1472, (1992).
115."An Analysis of the Effect of the Solid Layer for the Modified Chemical Vapor Deposition
Process," Y.T. Lin, M. Choi and R. Greif, Warme und Stoffubertragung, 28, 169-176, (1993).
116."Thermophoretic Transport in the Outside Vapor Deposition Process," S.H. Kang and R. Greif, International Journal of Heat and Mass Transfer, 36, 1007-1018 (1993).
117."A Study of the Effects of Chemical Reaction on the Modified Chemical Vapor Deposition
(MCVD) Process," S. Joh, R. Greif and Y.T. Lin, Journal of Materials Processing and Manufacturing Science, 1, 369-386, (1993).
118."Thermally Unstable Convection with Applications to Chemical Vapor Deposition Channel
Reactors," G. Evans and R. Greif, International Journal of Heat and Mass Transfer, 36, 2769-2782, (1993).
119."Chemical Vapor Deposition Processes in the Manufacture of Optical Fibers," R. Greif, Sixth
International Symposium on Transport Phenomena in Thermal Engineering, 1, 11-16, (1993).
120."Ventilated, Unobstructed Flow Between Corotating Disks in a Cylindrical Enclosure," D. Gor, J.A.C. Humphrey and R. Greif, Transactions of the ASME, Journal of Fluids Engineering, 115, 398-407, (1993).
121."Flow Near Thermodynamic Critical Points," M.M. Kilgo, R. E. Russo and R. Greif, Questions
in Fluid Mechanics, Transactions of the ASME, Journal of Fluids Engineering, 115, 546-547 (1993).
122."Unsteady Flow in the Obstructed Space Between Disks Corotating in a Cylindrical Enclosure,"
W.R. Usry, J.A.C. Humphrey and R. Greif, Transactions of the ASME, Journal of Fluids Engineering , 115, 620-626 (1993).
123."Scaling for Integral Simulation of Mixing in Large, Stratified Volumes," P.F. Peterson, V.E. Schrock
and R. Greif, Nuclear Reactor Thermal Hydraulics, 6, 202-211, (1993).
124."Thermophoretic Transport with Application to External Vapor Deposition Processes," H.C. Tsai and R. Greif, International Journal of Heat and Mass Transfer, 37 , 257-268 (1994).
125."Oscillations in Thermocapillary Convection in a Square Cavity," M. Kanouff and R. Greif, International Journal of Heat and Mass Transfer , 37 , 885-892 (1994).
126."A Two-Dimensional Model of the Chemical Vapor Deposition of Silicon Nitride in a Low-Pressure Hot-Wall Reactor including Multicomponent Diffusion," G. Evans and R. Greif, International Journal of Heat and Mass Transfer, 37, 1535-1543 (1994).
127."Ventilated Flow Between Corotating Disks with Large Obstructions in a Fixed Cylindrical Enclosure," D. Gor, J.A.C. Humphrey and R. Greif, Transactions of the ASME, Journal of Fluids Engineering, 116 , 828-834 (1994).
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128."Thermal Aspects of Transport in Chemical Vapor Deposition Reactors: A Two-Dimensional Model including Multicomponent Diffusion and Species Interdiffusion" G. Evans and R. Greif, Tenth International Heat Transfer Conference, IChemE, 7, 251-256 (1994).
129."Pore Size Distribution and Gas-Phase Thermal Conductivity of Silica Aerogel," S.Q. Zeng, A.J. Hunt, W. Cao and R. Greif, Transactions of the ASME, Journal of Heat Transfer , 116, 756-759 (1994).
130."Thermophoretic Transport for a Three Dimensional Reacting Flow Impinging on a Disk with Burner Misalignment," H.C. Tsai and R. Greif, Journal of Materials Processing and Manufacturing Science, 3, 217-242(1995).
131."Transport in Chemical Vapor Deposition Reactors: A Two-Dimensional Model Including
Multicomponent and Thermal Diffusion, and Species Interdiffusion," G. Evans and R. Greif, ASME/JSME Thermal Engineering Conference, 4, 95-101 (1995).
132."A Study of Thermophoretic Transport in a Reacting Flow with Application to External Chemical Vapor Deposition Processes," H.C. Tsai, S. Joh and R. Greif, International Journal of Heat and Mass Transfer, 38, 1901-1910(1995).
133.The Effects of and Oxidation, Buoyancy, Variable Properties and Tube Rotation on the Modified Chemical Vapor Deposition Process, S. Joh and R. Greif, International Journal of Heat and Mass Transfer, 38, 1911-1921(1995).
134."Theoretical Loading of Carbon Content to Minimize Heat Transfer in Silica Aerogel," S.Q. Zeng, A.J. Hunt and R. Greif, Journal of Non-Crystalline Solids, 186, 264-270 (1995).
135."Transport Properties of Gas in Silica Aerogel," S.Q. Zeng, A.J. Hunt and R. Greif, Journal of Non-Crystalline Solids, 186, 271-227 (1995).
136."Mean Free Path and Apparent Thermal Conductivity of a Gas in a Porous Medium," S.Q. Zeng, A.J. Hunt and R. Greif, Transactions of the ASME, Journal of Heat Transfer , 117 , 758-762 (1995).
137."Heat Transfer from a Flat Plate to a Fully Developed Axisymmetric Impinging Jet," D. Lee, R. Greif, S.J.Lee and J.H. Lee, Transactions of the ASME Journal of Heat Transfer, 117, 772-776 (1995).
138."Approximate Formulation for Coupled Conduction and Radiation Through a Medium with Arbitrary Optical Thickness," S.Q. Zeng, A.J. Hunt, R. Greif and W. Cao, Transactions of the ASME, Journal of Heat Transfer , 117, 797-799 (1995)
139."Geometric Structure and Thermal Conductivity of Porous Medium Silica Aerogel" S.Q. Zeng, A.J. Hunt and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 117, 1055-1058 (1995)
140."Thermophoretic Deposition Including Application to the Outside Vapor Deposition Process," C.K. Wu and R. Greif, International Journal of Heat and Mass Transfer, 39, 1429-1438 (1995).
141."Effective Optical Constants n and k and Extinction Coefficient of Silica Aerogel", J.S.Q. Zeng, R. Greif, P. Stevens, M. Ayers, and A. Hunt, J. of Materials Research, 11 , 1-7 (1996).
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142."Thin-Film-Heater Thermal Conductivity Apparatus and Measurement of Thermal Conductivity of Silica Aerogel", S.Q. Zeng, P.C. Stevens, A.J. Hunt and R. Greif, 39, International Journal of Heat and Mass Transfer , 2311-2317, (1996).
143."Laser Heating of a Cavity versus a Plane Surface for Metal Targets Utilizing Photothermal Deflection Measurements", S.H. Jeong, R. Greif and R.E. Russo, 80, Journal of Applied Physics , 1996-2002 (1996).
144."A Two-Dimensional Numerical Model of Gas Mixing and Deposition in a Rotating Disk CVD Reactor," W.S. Winters, G.H. Evans and R. Greif, Proceedings of the Thirteenth International Conference on Chemical Vapor Deposition, 96-5, 89-94 (1996).
145."A Study of Thermophoretic Transport and Flame Hydrolysis Deposition with Application to
the Manufacture of Optical Waveguides", H.C. Tsai, R. Greif and C.K. Wu, Journal of Materials Processing and Manufacturing Science, 4, 299-322 (1996).
146."Mixed Binary Convection in a Rotating Disk Reactor with Applications to Chemical Vapor
Deposition", W. S. Winter, G. H. Evans and R. Greif, International Journal of Heat and Mass Transfer, 40, 737-744 (1997).
147."The Dual Influence of Curvature and Buoyancy in Fully Developed Tube Flows," D. J.
Goering, J. A.C. Humphrey and R. Greif, International Journal of Heat and Mass Transfer, 40 , 2187-2200 (1997).
148."Buoyant Instabilities in Downward Flow in a Symmetrically Heated Vertical Channel", G.
Evans and R. Greif, International Journal of Heat and Mass Transfer, 40, 2419-2430 (1997).
149."Numerical Modeling of Pulsed Laser Evaporation of Aluminum Targets", S. H. Jeong, R. Greif and R. E. Russo, Applied Surface Science, 127, 172-183 (1998).
150."Simulation of Infrared Picosecond Laser - Induced Electron Emission from Semiconductors",
S. S. Mao, X. Mao, R. Greif and R. E. Russo, Applied Surface Science, 127, 206-211 (1998).
151."Propagation of the Shock Wave Generated from Excimer Laser Heating of Aluminum Targets in Comparison with Ideal Blast Wave Theory", S. H. Jeong, R. Greif and R. E. Russo, Applied Surface Science, 127, 1029-1034 (1998).
152.“Scaling for Integral Simulation of Mixing in Large Stratified Volumes” P.F. Peterson, V.E.
Schrock and R. Greif, Nuclear Engineering and Design, 186, 313-224 (1998).
153."Thermionic Electron Emission from Narrow Bandgap Semiconductors under Picosecond Laser Excitation", S.S. Mao, X. Mao, J. H. Yoo, R. Greif and R. E. Russo, Journal of Applied Physics, 83, 4462-4465 (1998).
154.“Numerical Analysis of Pulsed Laser heating for the Deformation of Metals”, M. Iwamoto, M.
Ye, C.P. Grigoropoulos and R. Greif, Numerical Heat Transfer, Part A, 34, 791-804 (1998).
155."Transport and Deposition in MOCVD for Thin Film Fabrication of High Temperature Superconductors", G. Evans and R. Greif, Eleventh International Heat Transfer Conference, I Chem E., 7, 99-104 (1998).
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156."Convective Heat Transfer and Flow Stability in Rotating Disk CVD Reactors", W. S. Winters,
G. Evans and R. Greif, International Heat Transfer Conference, I Chem E., 7, 163-168 (1998).
157.“Breakdown of Equilibrium Approximation for Nanosecond Laser-Induced Electron Emission from Silicon”, S.S. Mao, X. Mao, R. Greif and R.E. Russo, Applied Physics Letters, 73, 1331-1333 (1998)
158."Thermophoretic, Convective, and Electrophoretic Transport for Stagnation Flow on an Infinite
Wall", F. Kusnadi and R. Greif, Journal of Materials Processing and Manufacturing Science, 6, 147-160 (1997).
159.“Measurement of the Transient Glass Surface Deformation during Laser Heating”, T.R. Shiu,
C.P. Grigoropoulos and R. Greif, Transactions of the ASME, Journal of Heat Transfer, 121, 1042-1048 (1999).
160."Shock Wave and Material Vapour Plume Propagation during Excimer Laser Ablation of
Aluminum Samples," S.H. Jeong, R. Greif and R.E. Russo, Journal of Physics D: Applied Physics, 32, 2578-2585 (1999).
161.“Mechanism of Bump Formation on Glass Substrates During Laser Texturing”, T.R. Shiu, C. P.
Grigoropoulos, G. Cahill and R. Greif, Journal of Applied Physics, 86, 1-6 (1999).
162.“Dynamics of an Air Plasma on a Solid Surface during Picosecond Laser Ablation of Solids” S.S. Mao, X.L. Mao, R. Greif and R.E. Russo, Applied Physics Letters, 76, 31-33 (2000).
163."Evidence for Phase-Explosion and Generation of Large Particles during High Power
Nanosecond Laser Ablation of Silicon," J. H. Yoo, S. H. Jeong, X. L. Mao, R. Greif and R. E. Russo, Applied Physics Letters, 76, 783-785 (2000).
164."Simulation of a Picosecond Laser Ablation Plasma," S. Mao, X. L. Mao, R. Greif and R. E.
Russo, Applied Physics Letters; 76, 3370-3372 (2000)
165.“Explosive Change in Crater Properties During High Power Nanosecond Laser Ablation of Silicon:,” J. H. Yoo , S. H. Jeong, R. Greif and R. E. Russo, Journal of Applied Physics, 88, 1638-1649 (2000).
166.“The Initiation of an Early Stage Plasma during Picosecond Laser Ablation”, X.L. Mao, S.S.
Mao, R. Greif and R.E. Russo, Applied Physical Letters, 77, 2464 -2466 (2000).
167.“Plasma Development during Picosecond Laser Processing of Electronic Materials,” S.S. Mao, X. Mao, R. Greif and R.E. Russo, ASME Journal of Heat Transfer, 122, 424 (2000).
168.“Observations of Plasma Formation During Picosecond Laser Micro-Machining of Electronic
Solids, S.S. Mao, X. Mao, R. Greif and R.E. Russo, SPIE International Symposium on High-Power Lasers and Applications, 3935, 113-119 (2000).
169.“Characterization of Energy Transport by Mass Diffusion including an Application to Elliptic
Channel Flow,” G. Evans and R. Greif, International Journal of Heat and Mass Transfer, 44, 753-761 (2001).
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170.“Friction in Micro-Channel Flows of a Liquid and Vapor in Trapezoidal and Sinusoidal
Grooves,” J. S. Suh, R. Greif and C. P. Grigoropoulos, International Journal of Heat and Mass Transfer, 44, 3103-3109 (2001).
171.“Pressure Suppression Pool Mixing in Passive Advanced BWR Plants,” R.E. Gamble, T.
Nguyen, B.S. Shiralkar, P.F. Peterson, R. Greif and H. Tabata, Journal of Nuclear Engineering and Design, 204, 321-336 (2001).
172.Influence of Preformed Shock Wave on the Development of Picosecond Laser Ablation
Plasma,” S.S. Mao, X.L. Mao, R. Greif and R.E. Russo, Journal of Applied Physics, 89, 4096-4098 (2001).
173.Response to Comment on “Evidence for Phase Explosion and Generation of Large Particles
During High Power Nanosecond Laser Ablation of Silicon,” J.G.Yoo, S.H Jeong, X.L. Mao, R. Greif, X.L. Mao and R.E. Russo, Applied Physics Letters, 79, 444-445 (2001).
174.“Stagnation Deposition with Thermophoretic Transport”, F.K. Hsu and R. Greif, International
Journal of Heat and Mass Transfer, 45, 1229-1235 (2002).
175.“Forced and Buoyancy-Induced Convection in LIGA Electrodeposition” G. Evans, K. S. Chen, S. Larson and R. Greif, Twelfth International Heat Transfer Conference, 4, 723-728 (2002).
176.“Infrared Thermal Velocimetry for Nonintrusive Flow Measurement in Microfluidic Devices”,
J. Chung, C. P. Grigoropoulos and R. Greif, Review of Scientific Instruments, 74, 2911-2917 (2003).
177.“Infrared Thermal Velocimetry in MEMS-Based Fluidic Devices”, J. Chung, C. P.
Grigoropoulos and R. Greif, Journal of MEMS, 12, 365-372 (2003).
178.“Laser-Induced Plasmas in Micromachined Fused Silica Cavities,” X. Zeng, S.S. Mao, C. Liu, X. Mao, R. Greif and R.E. Russo, Applied Physics Letters, 83, 240-242 (2003).
179.“Plasma Diagnostics During Laser Ablation in a Cavity,” X. Zeng, S.S. Mao, C. Liu, X. Mao,
R. Greif and R.E. Russo, Spectrochimica Acta Part B, 58, 867-877 (2003).
180.“Laser Plasma Interactions in Fused Silica Cavities,” X. Zeng, X. Mao, S. S. Mao, J. H. Yoo, R. Greif and R.E. Russo, Journal of Applied Physics, 95, 816-822 (2004).
181.“Nanosecond and Femtosecond Laser Ablation of Brass: Particulate and ICPMS
Measurements,” C. Liu, X. L. Mao, S. S. Mao, X. Zeng, R. Greif and R. E. Russo, Analytical Chemistry, 76, 379-383 (2004)
182.“Energy Deposition and Shock Wave Propagation During Pulsed Laser Ablation in Fused Silica
Cavities”, X. Zeng, X. Mao, S. B. Wen, R. Greif and R. E. Russo, J. Phys. D: Appl. Phys., 37, 1132-1136 (2004).
183.“Turbulent Mixed Convection from a Large, High Temperature, Vertical Flat Surface,” G.
Evans, R. Greif, D. Siebers and S. Tieszen, International Journal of Heat and Fluid Flow, 26, 1-11 (2005).
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184.“Experimental Investigation of Ablation Efficiency and Plasma Expansion during Femtosecond
and Nanosecond Laser Ablation of Silicon”, X. Zeng, X. Mao, R. Greif and R. E. Russo, Applied Physics A: Materials Science & Processing, 80, 237-241 (2005).
185.“Particle Size Dependent Chemistry from Laser Ablation of Brass”, C. Liu+, X. L. Mao, S. S.
Mao, X. Zeng, R. Greif, and R. E. Russo, Analytical Chemistry, 77, 6687-6691 (2005).
186.“Laser-Induced Shockwave Propagation from Ablation in a Cavity”, X. Zeng, X. Mao, S. Mao, R. Greif and R. E. Russo, Applied Physics Letters, 88, 061502 (2006).
187.“Methanol Steam Reformer on a Silicon Wafer”, H. G. Park, J. A. Malen, W. T. Piggott, D. D.
Morse, R. Greif, C. P. Grigoropoulos, M. A. Havstad and R. Upadhye, J. Microelectromechanical Systems, 15, 976-985 (2006)
188.“Radiative Cooling of Laser Ablated Vapor Plumes: Experimental and Theoretical Analysis”,
Wen, S. B., Mao, X. L., Greif, R., and Russo, R. E., J. Appl. Phys., 100, 053104 (2006)
189.“Modeling of Thermally-Driven Transport in Interior Spaces for Applications to Zonal Mixing Models”, W. Winters, G Evans, R Greif, Thirteenth International Heat Transfer Conference, Vol. NCV 25, 1-13 (2006).
190.“Effects of Buoyancy on Contaminant Transport in Room Air Flows”, G Evans W. Winters, R
Greif, Thirteenth International Heat Transfer Conference, Vol. NCV 27, 1-12 (2006).
191.“Expansion and Radiative Cooling of the Laser Induced Plasma”, Wen, S. B., Mao, X. L., Liu, C., Greif, R., and Russo, R. E., J. Phys.Conference Series 59, 343-347(2007)
192.“Transport in Packed-Bed and Wall-Coated Steam-Methanol Reformers”, Lee, M-t., Greif, R.,
Grigoropoulos, C. P., Park, H. G. and Hsu, F. K., J. Power Sources 166, 194-201 (2007)
193.“Expansion of the Laser Ablation Vapor Plume into a Background Gas. I. Analysis” , Wen, S. B., Mao, X. L., Greif, R., and Russo, R. E., J. Appl. Phys., 101, 023114 (2007)
194.“Laser Ablation Induced Vapor Plume into a Background gas. II Experimental Analysis, Wen,
S. B., Mao, X. L., Greif, R., and Russo, R. E., J. Appl. Phys., 101, 023115 (2007)
195.“Experimental and Theoretical Studies of particle generation after laser ablation of copper with a background gas at atmospheric pressure”, Wen, S. B., Mao, X. L., Greif, R., and Russo, R. E., J. Appl. Phys., 101, 123105 (2007)
196.“A Study of Steam Methanol Reforming in a Microreactor”, Suh, J-A., Lee, M-T., Greif, R.,
and Grigoropoulos, C. P., J. Power Sources 173, 458-466 (2007)
197.“Analysis of Laser Ablation: Contribution of Ionization energy to the plasma and shockwave properties”, Wen, S. B., Mao, X. L., Greif, R., and Russo, R. E., J. Appl. Phys., 101, 043103 (2007)
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198.“Background Gas Effects on the Generation of Nanopatterns on a Pure Silicon Wafer with Multiple Femtosecond Near Field Laser Ablation”, Wen, S. B., Mao, X. L., Greif, R., and Russo, R. E., Applied Physics Letters 91, 251113 (2007)
199.“Heat Transfer for Water Flow in Triangular Silicon Microchannels”, Chu, J. C., Teng, J.T.
and Greif, R., Journal of Thermal Science and Technology, 3, 410-420 (2008)
200.”Mixed Convection Heat Transfer to and From a Horizontal Cylinder in Cross- Flow with Heating from Below”, Laskowski, G. M., Kearney, S. P. , Evans, G. and Greif, R., International Journal of Heat and Fluid Flow, 28,454-468 (2007)
201.”Combined Wave Based Optical Analysis and Particle Based Thermal Analysis of Nanoscale
Ultrafast Target Heating of Silicon Utilizing a Near-Field Scanning Optical Probe and a Femtosecond Laser”, Wen, S. B and Greif, R., J. of Physics D: Applied Physics, 42, 075502 (2009)
202.”Transport Phenomena in a Steam-Methanol Reforming Microreactor with Internal Heating”, J.
Suh, M.T. Lee, R. Greif and C.P. Grigoropoulos, International Journal of Hydrogen Energy, 34 314-322 (2009)
203.”Nanocatalyst Fabrication and the Production of Hydrogen by using Photon Energy’, M.T. Lee,
D.J. Hwang, R. Greif and C.P. Grigoropoulos, International Journal of Hydrogen Energy, 34 1835-1843 (2009)
204.”Hydrogen Production with a Solar Steam–Methanol Reformer and Colloid Nanocatalyst”, M.
T. Lee+, M. Werhahn, D. J. Hwang, N. Hotz, R. Greif, D. Poulikakos and C. P. Grigoropoulos, International Journal of Hydrogen Energy, 35 118-126 (2010)
205.”Modeling the Active Cooling of High Concentrator Photovoltaics”, 6th International
Symposium on Multiphase Flow, Ho, T., Mao, S. S. and Greif, R., Heat Mass Transfer and Energy Conversion Xi’an, China, 11-15 (2009)
206.”Improving Efficiency of High Concentrator Photovoltaics by Cooling with Two-Phase Forced
Convection”, Ho, T., Mao, S. S. and Greif, R., International Journal of Energy Research, 34 1257-1271 (2010)
207. “The Impact of Cooling on Cell Temperature and the Practical Solar Concentration Limits for
Photovoltaics”, Ho, T., Mao, S. S. and Greif, R., International Journal of Energy Research, www.interscience.wiley.com DOI:10.1002/er.1670 (2010)
208. “Experimental and Numerical Study on the Flow Characteristics in Curved Rectangular
Microchannels,” J-C. Chu, J-T. Teng, and R. Greif, Applied Thermal Engineering, 30 1558-1566 (2010)
209. “Ignitability Limits for Combustion of Unintended Hydrogen Releases: Experimental and
Theoretical Results”, Schefer, R. W., Evans, G. H., Zhang, J., Ruggles, A. J. and Greif, R., International Journal of Hydrogen Energy, 36 2426-2435 (2011)
210. “Experimental Investigations on Liquid Flow and Heat Transfer in Rectangular Microchannel with
Longitudinal Vortex Generators,” Liu, C., Teng J.-T., Chu J.-C., Chiu Y.-l., Huang S., Jin S., Dang T., Greif R. and Pan H.-P., International Journal of Heat and Mass Transfer, 54 3069-3080 ( 2011)
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211. “An experimental and theoretical study of heat and mass transfer during the venting of gas from
pressure vessels", W.S. Winters, G.H. Evans, S.F. Rice, R. Greif, International Journal of Heat and Mass Transfer, 55, 8-18 (2012)
212. “Characterization of frictional pressure drop of liquid flow through curved rectangular micro-
channels”, J-C. Chu, J-T. Teng, T-T Xu, S. Huang, S. Jin, X-F Yu, T.Dang, C-P. Zhang and R. Greif, Experimental Thermal and Fluid Science, 38 171-183 (2012)
213. "Comparison of the Organic Flash Cycle (OFC) to other advanced vapor cycles for
intermediate and high temperature waste heat reclamation and solar thermal energy", Ho, T., Mao, S. and Greif, R., Energy, 42 213-223 (2012)
214. “A study on the hydraulic and thermal characteristics in fractal tree-like microchannels by
numerical and experimental methods”, X-F Yu, C-P Zhang, J-T Teng, S-Y Huang, S-Phi-ping Jin , Y-F Lian, C-H Cheng, T-T Xu, J-C Chu , Y-J Chang, T. Dang, R. Greif, International Journal of Heat and Mass Transfer, 55, 7499-7507 (2012)
215."Increased power production through enhancements to the Organic Flash Cycle
OFC)", Ho, T., Mao, S. and Greif, R., Energy, 45 686-695 (2012)
216. “Numerical and experimental studies on laminar hydrodynamic and thermal characteristics in fractal-like microchannel networks. Part A: Comparisons of two numerical analysis methods on friction factor and Nusselt number”, C-p Zhang, Y-f Lian, X-f Yu, W Liu, J-t Teng, T-t Xu, C-H Hsu, Y-J Chang and R. Greif, International Journal of Heat and Mass Transfer, 66, 930-938 (2013)
217. “Numerical and experimental studies on laminar hydrodynamic and thermal characteristics in fractal-like microchannel networks. Part B: Investigations on the performances of pressure drop and heat transfer”, C-p Zhang, Y-f Lian, X-f Yu, W Liu, J-t Teng, T-t Xu, C-H Hsu, Y-J Chang and R. Greif, International Journal of Heat and Mass Transfer, 66, 939-947(2013)
218. “Multiscale Transient Thermal, Hydraulic, and Mechanical Analysis Methodology of a Printed Circuit Heat Exchanger Using an Effective Porous Media Approach” , Urquiza, E., Lee, M, Peterson, P. and Greif, R., Journal of Thermal Science and Engineering Applications, ASME, 5, 041011, 1-8 (2013)
219. “A study of the transport phenomena in a wall-coated micro steam-methanol reformer”, M. T. Lee, C. P.Grigoropoulos and R. Greif, International Journal of Hydrogen Energy, 39, 2008-2017 ( 2014))
220. “A study on fluid flow and heat transfer in rectangular microchannels with various longitudinal vortex generators”, Chen, C., Teng, J.-t., Cheng, C.-H., Jin, S., Huang, S., Liu, C., Lee, M.-T., Pan, H.-H. and Greif, R., International Journal of Heat and Mass Transfer, 69 203 – 214 (2014)
221. “Investigations of thermal and flow behavior of bifurcations and bends in fractal-like microchannel networks: Secondary flow and recirculation flow”, Zhang, C-P, Lian,Y-F, Hsu, C-H, Teng, J-T, Liu, S. and Greif, R., International Journal of Heat and Mass Transfer, 85 723-731 (2015)
222.“Enhancement of thermodynamic performance of microchannel heat sink by using a novel multi-nozzle structure”, Tran, N., Chang, Y-C, Teng, J-T, Dang, T. and Greif, R., International Journal of Heat and Mass Transfer, 101 656-666 (2016)
223. “A study on five different channel shapes using a novel scheme for meshing and a structure of
a multi-nozzle microchannel heat sink”, lngoctan Tran,Yaw-Jen Chang Jyh-tong Teng and Ralph Greif, International Journal of Heat and Mass Transfer, 105 429-442 (2017)
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224. “Enhancement heat transfer rate per unit volume of microchannel heat exchanger by using a novel multi-nozzle structure on cool side”, Tran, N., Chang, Y.-J., Teng, J.-T. and Greif, R., International Journal of Heat and Mass Transfer, 109 1031-1043 (2017)
PUBLISHED PROCEEDINGS (REFEREED)
225."Radiative Transfer in a Solar Absorbing Particle Laden Flow," W.G. Houf and R. Greif, Radiative Heat Transfer, editors B.F. Armaly and A.F. Emery, ASME, HTD, 49, 9-14 (1985).
226."Gas Particle Flow Within a High Temperature Cavity Including the Effects of Thermal
Radiation," G. Evans, W.G. Houf, C.T. Crowe and R. Greif, Heat Transfer 1985, editor N.M. Farukhi, AIChE, 81, 213-210 (1985).
227."A Numerical Model of the Flow and Heat Transfer in a Rotating Disk Chemical Vapor
Deposition Reactor," G. Evans and R. Greif, ASME-JSME Thermal Engineering Joint Conference, P.J. Marto and I. Tanasawa, Editors, ASME, I, 589-596 (1987).
228."A Numerical Model of the Flow and Heat Transfer in a Rotating Disk Chemical Vapor
Deposition Reactor," G. Evans and R. Greif, ASME-JSME Thermal Engineering Joint Conference, P.J. Marto and I. Tanasawa, Editors, ASME, I, 589-596 (1987).
229."The Effects of Pressure and Temperature on Heat Transfer During Flame Quenching," W.M.
Huang, S.R. Vosen and R. Greif, SAE International Fuels and Lubricants Meeting, 872106, Toronto, Canada, 189-202 (1987).
230."Numerical Calculation of Laminar Flow and Heat Transfer in the Space Between Two
Corotating Disks in an Axisymmetric Enclosure," C.J. Chang, J.A.C. Humphrey and R. Greif, ASME, AIChE, ANS National Heat Transfer Conference HTD-96, 3, 329-338 (1988).
231."A Study of Heat Transfer and Particle Motion Relative to the Modified Chemical Vapor
Deposition Process," M. Choi, R. Greif and H.R. Baum, ASME, AIChE, ANS National Heat Transfer Conference, HTD-96, 3, 425-434 (1988).
232."Effect of Knock on Time-Resolved Engine Heat Transfer," A. Iiyama,O. Ezekoye, J.H. Lu, R.
Greif and R.F. Sawyer, SAE, SI Engine Combustion Processes, 890158 (1989); also, in Japanese, SAE, Japan (1989).
233."Unsteady Two Dimensional Heat Transfer in Laser Heated Materials," A. Rostami, R. Greif
and R.E. Russo, ASME, Transport Phenomena in Materials Processing, HTD, 146, 61-68 (1990).
234.“Unsteady Flow in the Obstructed Space Between Disks Corotating in a Cylindrical Enclosure,”
W.R. Usry, J.A.C. Humphrey and R. Greif, ASME Industrial and Environmental Applications of Fluid Mechanics, FED, 145, 1-8 (1992).
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235."Ventilated, Unobstructed Flow Between Corotating Disks in a Cylindrical Enclosure," D. Gor,
J.A.C. Humphrey and R. Greif, ASME, Industrial and Environmental Applications of Fluid Mechanics, FED, 145, 9-20 (1992).
236."A Comparison of One- and Two-Dimensional Flame Quenching: Heat Transfer Results," O.A.
Ezekoye and R. Greif, ASME, Heat Transfer in Fire and Combustion Systems, HTD, 250, 11-20 (1993).
237."Heat Transfer from a Plate to a Fully-Developed Axisymmetric Impinging Jet," S.J. Lee, J.H.
Lee, D.H. Lee and R. Greif, ASME, HTD, 263, 11-18, (1993).
238."Ventilated Flow in the Space Between Corotating Disks with Large Obstructions," D. Gor, J.A. C. Humphrey and R. Greif, ASME, FED, 170 , 65-73, (1993).
239."A Simple Fractal Model for Laser Induced Melt Flows", M.M. Kilgo, R.E. Russo and R. Greif,
ASME, HTD 323, 179-184 (1996).
240."Laser Heating of Metal Targets Including the Influence of the Background Pressure", S.H. Jeong, R. Greif and R. E. Russo, ASME, HTD, 351, 63-73 (1997).
241.“Capillary Pumped Loop Heat Spreader for Electronics Cooling,” J. Chung, C. P.
Grigoropoulos and R. Greif, ASME International Mechanical Engineering Congress and Exposition, HTD, 24405, 1-8 (2001).
242.“Infrared Thermal Velocimetry,” J. Chung, Y. Shin, K. Petigrew, P. Chapman, C. P.
Grigoropoulos and R. Greif, ASME, HTD, 24410, 1-5 (2001).
243.“Radiative Properties of Polar Bear Hair”, J.A. Preciado, B. Rubinsky, D. Otten, B. Nelson, M.C. Martin and R. Greif, ASME, BED, 53, 1-2 (2002).
244.“Transport in a Microfluidic Catalytic Reactor”, H.G. Park, J. Chung, C. P. Grigoropoulos, R.
Greif, M. Havstad and J.D. Morse, ASME, 47216, 1-10 (2003).
245.“Investigation of the Flow Maldistribution in Microchannels,” J. T. Teng, J. Chu, M. Liu, C. C. Wang and R. Greif, ASME, IMECE2003-41323, 1-5 (2003)
246.“Ultraviolet Femtosecond and Nanosecond Laser Ablation of Silicon: Ablation Efficiency and
Laser-Induced Plasma Expansion”, X. Zeng, X. Mao, R. Greif and R. E. Russo, SPIE International Conference, High-Power Laser Ablation V, (2004).
247.“A Study on the Behavior of the Pressure Drop for the Fluid Flow in a Triangular
Microchannel,” J. T. Teng, C. Chu, J. Chen, C. C. Wang, C. Lin and R. Greif, 7th Biennial ASME Conference on Engineering Systems Design and Analysis, ASME, ESDA 2004-583565, Manchester, U.K. (2004)
248.“Transport in a Methanol Steam Reformer as the Fuel Processor for Fuel Cell Systems,” H. G.
Park, T. Lee, F. K. Hsu, C. P. Grigoropoulos, and R. Greif, ASME, IMECE 2004-61208, 1-7 (2004).
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249.“Experimental Investigation of a Cylinder in Turbulent Thermal Convection with an Imposed Shear Flow,” S. P. Kearney, T. W. Grasser, G. H. Evans and R. Greif, AIAA, 2005-1124, 1- 16 (2005)
250.“Multi-Scale Thermal Analysis for Compact Plate-Type Heat Exchangers,” E. Urquiza
Fernandez, P. Peterson and R. Greif, AIChE Annual Meeting, (2007). PATENTS 1. Award of U.S. Patent 9284857 with T. Ho and S. Mao. U. S. Patent Office. Organic Flash Cycles for
Efficient Power Production (2016) CHAPTERS IN BOOKS 1. "Experimental and Theoretical Results with Infrared Radiating Gases," Chapter 16 of Heat Transfer
in Flames, N.H. Afgan and J.M. Beer, Editors, John Wiley and Sons, New York, (1974). 2. "Mass Transfer Controlled Corrosion in a Cylinder in Salt Water," I. Cornet, R. Greif and F. Roehler,
in Heat and Mass Transfer in Metallurgical Systems, editors D.B. Spalding and N.H. Afgan, Hemisphere Publishing Corporation, Washington, DC, (1981).
3. "A Review of Natural Circulation Loops," A. Mertol and R. Greif, in Natural Convection:
Fundamentals and Applications, S. Kakac, W. Aung, and R. Viskanta, Editors, Hemisphere Publishing Corporation, New York, NY, 1033-1071, (1985).
4. "Natural Circulation Loops: Background and Selected Current Studies and Applications,"A. Mertol
and R. Greif, Heat Transfer in Thermal Systems Seminar Phase II, J.R. Maa and L.S. Fletcher, Editors, National Cheng Kung University, Taiwan, 143-155 (1986).
5. "Review of Thermosyphon Solar Water Heaters," A. Mertol and R. Greif, in Solar Energy
Utilization: Fundamentals and Applications, Martinus Nijhoff Publishers, the Netherlands, (1987).
6. Jyh-tong Teng, Jiann-Cherng Chu, Chao Liu, Tingting Xu, Yih-Fu Lien, Jin-Hung Cheng, Suyi Huang, Shiping Jin,., Thanhtrung Dang, Chunping Zhang, Xiangfei Yu, Ming-tsang Lee, and Ralph Greif, Fluid Dynamics for Fluids Flowing through Microchannels, Fluid Dynamics, Book 3 (ISBN 979-953-307-632-3), Chapter 17, pp. 403-436, InTech Open Access Publisher, February 2012
PAPERS AT CONFERENCES 1. "Mass Transfer Controlled Corrosion/Polarization of Prototype Impellers/ Propellers," I. Cornet, R.
Greif and F. Roehler, American Institute of Chemical Engineers, 77-85, Nov. 1977. 2. "Prediction of Drop Models for the Dispersed Flow Downstream of the Quench Front in Tube
Reflood Experiments," R. Seban, R. Greif, W. Peake and H. Wong, ASME 80-WA/HT-66. 3. "Buoyancy-Driven Convection in Rectangular Enclosures: Experimental Results and Numerical
Calculations," F. Bauman, A. Gadgil, R. Greif and R. Krammerud, ASME 80-HT-66.
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4. "Thermosyphon Water Heaters with Heat Exchangers," A. Mertol, W. Place, T. Webster and R. Greif, Proceedings of the American Section, International Solar Energy Society, 3.1, 309-313, (1980).
5. "Wall Heat Transfer and Flame Propagation in a Constant Volume Duct," J.B. Woodard, D. Hirvo,
R. Greif and R.F. Sawyer, The Combustion Institute, Western States Section, also LBL-13021, (1980).
6. "A Simple Theory for Predicting the Natural Convective Energy Loss from Side-Facing Solar Cavity
Receivers," M. Abrams and R. Greif, in Convective Losses from Solar Central Receivers: Proceedings of a DOE/SERS/SNLL Workshop, editor P. Falcone, SAND 81-8014, (1981).
7. "Measurement and Calculation of Unsteady Turbulent Flows in an Unobstructed Enclosed
Corotating Disk Configuration," C.A. Schuler, W. Usry, J.A.C. Humphrey and R. Greif, 42nd Annual Meeting of the Division of Fluid Dynamics, American Physical Society, Palo Alto, California, (1989).
8. "Experimental Investigation of the Flow Between Co-rotating Disks in an Axisymmetric Enclosure,"
C.A. Schuler, B. Weber, J.A.C. Humphrey and R. Greif, Third International Conference on Laser Anemometry, Advances and Applications, University College of Swansea, Wales, (1989).
9. "Electric Field Enhanced Deposition in Optical Fiber Manufacturing," J. Hwang, J.W. Daily and R.
Greif, The Combustion Institute, Canadian and Western States Section, (1990). 10. "Electric Field Enhanced Deposition in Optical Fiber Manufacturing," J. Hwang, J.W. Daily and R.
Greif, Eleventh Korean Symposium on Science and Technology, Korea (1990). 11. "Effect of Variable Wall Temperature on Wall Heat Flux During Laminar Flame Quenching," O.
Ezekoye, J.H. Lu, D. Fabris, R. Greif and R.F. Sawyer The Combustion Institute, Western States Section, WSCI 90-44, (1990).
12. “Plasma Development During Picosecond Laser Processing of Electronic Materials,” S.S. Mao, X.
Mao, R. Greif and R.E. Russo, International Mechanical Engineering Congress and Exposition, (Heat Transfer Picture Gallery) (1990).
13. "Probe Measurements of Temperature and Electric Field for Particle Thermophoresis and
Electrophoresis in an Optimal Waveguide Flame," J. Hwang, J.W. Daily and R. Greif, The Combustion Institute, Western States Section, WSS/CI 91-32, (1991).
14. "Heat Transfer from Combustion in an Enclosure," J.A. Maxson, O. Ezekoye, D.M. Hensinger and
A.K. Oppenheim, Twenty-Fourth International Symposium on Combustion, The Combustion Institute, P 3 (1992).
15. “A Methanol Steam Reforming Micro Reactor for Proton Exchange Membrane Micro Fuel Cell
System,” H.G. Park, W.T. Piggott, J. Chung, D. Morse, M. Havstad, C. P. Grigoropoulos, R. Greif, W. Benett, D. Sopchak and R. Upadhye, Proceedings of Hydrogen and Fuel Cells 2003 Conference and Trade Show: Vancouver, BC Canada (2003).
SELECTED REPORTS
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1. "Heat Transfer During the Reflooding Phase of the LOCA-State of the Art," G. Yadigaroglu, R. Greif, K.P. Yu and L. Arrieta, EPRI 248-1, (1975).
2. "UCB Reflood Experimental Plan," K. Yu, D. Abdollahian, W. Peake, E. Elias, G. Yadigaroglu and
R. Greif, EPRI NP 457, (1977). 3. "UCB Reflood Program: Experimental Data Report," R. Seban, R. Greif, G. Yadigaroglu, E. Elias,
D. Abdollahian and W. Peake, EPRI Report NP-743, (1978). 4. "Submicron Particulates Generated by Combustion of Pulverized Coal," P.M. Sherman, A.F.M.
Akhtaruzzaman, R. Greif and F. Robben, Lawrence Berkeley Laboratory Report, UCID 8044, (1978). 5. "Comparison of Experimental and Predicted Heat Transfer for the Data of the UCB Reflood
Experiment," R. Seban, R. Greif, D. Abdollahian and W. Peake, EPRI Report NP-1290, (1979). 6. "Parametric Study of Submicron Particulates from Pulverized Coal Combustion," J. Pennucci, G.
Parsons, F. Robben, R. Greif and P. Sherman, LBL-12113, (1981). 7. "A Simple Theory for Predicting the Natural Convective Energy Loss from Side-Facing Solar Cavity
Receivers," M. Abrams and R. Greif, SAND 81-8201, (1981). 8. "Characteristics of Fly Ash from Laboratory Combustion of Pulverized Coal," G. Parson, P.
Sherman, R. Greif and F. Robben, LBL-13022, (1981). 9. "Flame Propagation, Wall Heat Transfer and Their Interaction in Lean Premixed Gases," J.B.
Woodard, D.H. Hirvo, R. Greif and R.F. Sawyer, LBL-13950, (1982). 10. "Radiation Transfer in a Solar Absorbing Particle Laden Flow," W.G. Houf and R. Greif, SAND 84-
8929, (1985). 11. "Numerical Modeling of a Solid Particle Solar Central Receiver," G.H. Evans, W.G. Houf, C. Crowe
and R. Greif, SAND 85-8249, (1985). BOOK REVIEWS 1. Proceedings of the Second All-Soviet Union Conference on Heat and Mass Transfer, International
Journal of Heat and Mass Transfer, C. Gazley, Jr., J.P. Hartnett and E. R. G. Eckert, Editors, 13, 512, (1970).
2. Solar Engineering of Thermal Processes, J.A. Duffie and W.A. Beckman, Wiley-Interscience,
American Scientist, 80, 549, (1982).