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Volume 123, Issue 6
December 2001
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Technical Papers

Conductive Heat Transfer
On the Solution of Multidimensional Inverse Heat Conduction Problems Using an Efficient Sequential Method
H. M. Park, W. S. Jung
J. Heat Transfer. December 2001, 123(6): 1021–1029. doi: https://doi.org/10.1115/1.1409260
View articletitled, On the Solution of Multidimensional Inverse Heat Conduction Problems Using an Efficient Sequential Method
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Topics: Differential equations , Heat conduction , Heat flux , Temperature measurement , Algorithms , Dynamic models , Computers , Eigenfunctions , Inverse problems , Filtration
Forced Convection
Laminar Heat Transfer in the Entrance Region of Internally Finned Square Ducts
V. D. Sakalis, P. M. Hatzikonstantinou
J. Heat Transfer. December 2001, 123(6): 1030–1034. doi: https://doi.org/10.1115/1.1404118
View articletitled, Laminar Heat Transfer in the Entrance Region of Internally Finned Square Ducts
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Topics: Ducts , Entrance region , Fins , Flow (Dynamics) , Friction , Heat transfer , Boundary-value problems , Temperature distribution , Temperature , Heat transfer coefficients
Geometry Effects on Turbulent Flow and Heat Transfer in Internally Finned Tubes
Xiaoyue Liu, Mem. ASME, Mechanical Engineer,, Michael K. Jensen, Fellow ASME, Professor,
J. Heat Transfer. December 2001, 123(6): 1035–1044. doi: https://doi.org/10.1115/1.1409267
View articletitled, Geometry Effects on Turbulent Flow and Heat Transfer in Internally Finned Tubes
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Topics: Fins , Friction , Heat transfer , Turbulence , Flow (Dynamics) , Reynolds number
New Theory for Forced Convection Through Porous Media by Fluids With Temperature-Dependent Viscosity
Arunn Narasimhan, Jose´ L. Lage, Donald A. Nield
J. Heat Transfer. December 2001, 123(6): 1045–1051. doi: https://doi.org/10.1115/1.1409268
View articletitled, New Theory for Forced Convection Through Porous Media by Fluids With Temperature-Dependent Viscosity
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Topics: Fluids , Horizontal directional drilling , Porous materials , Temperature , Viscosity , Forced convection , Flow (Dynamics) , Pressure drop
Natural and Mixed Convection
On the Thermal Interaction Between an Isothermal Cylinder and Its Isothermal Enclosure for Cylinder Rayleigh Numbers of Order 104
D. T. Newport, T. M. Dalton, M. R. D. Davies, M. Whelan, C. Forno
J. Heat Transfer. December 2001, 123(6): 1052–1061. doi: https://doi.org/10.1115/1.1389467
View articletitled, On the Thermal Interaction Between an Isothermal Cylinder and Its Isothermal Enclosure for Cylinder Rayleigh Numbers of Order <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><msup><mn>10</mn><mrow><mn>4</mn></mrow></msup></mrow></math></span>
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Topics: Cylinders , Interferometers , Interferometry , Plumes (Fluid dynamics) , Temperature , Rayleigh number , Heat transfer , Flow (Dynamics) , Natural convection , Ceilings
Radiative Heat Transfer
Interaction Effects Between Surface Radiation and Turbulent Natural Convection in Square and Rectangular Enclosures
K. Velusamy, Scientific Officer,, T. Sundararajan, Professor,, K. N. Seetharamu, Professor,
J. Heat Transfer. December 2001, 123(6): 1062–1070. doi: https://doi.org/10.1115/1.1409259
View articletitled, Interaction Effects Between Surface Radiation and Turbulent Natural Convection in Square and Rectangular Enclosures
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Topics: Flow (Dynamics) , Heat transfer , Natural convection , Radiation (Physics) , Temperature , Turbulence , Convection , Rayleigh number , Heat conduction , Fluids
Evaporation, Boiling, and Condensation
A Theoretical Model to Predict Pool Boiling CHF Incorporating Effects of Contact Angle and Orientation
Satish G. Kandlikar, Fellow ASME
J. Heat Transfer. December 2001, 123(6): 1071–1079. doi: https://doi.org/10.1115/1.1409265
View articletitled, A Theoretical Model to Predict Pool Boiling CHF Incorporating Effects of Contact Angle and Orientation
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Topics: Bubbles , Critical heat flux , Boiling , Pool boiling , Vapors , Water
Highly Subcooled Boiling in Crossflow
LiDong Huang, Larry C. Witte
J. Heat Transfer. December 2001, 123(6): 1080–1085. doi: https://doi.org/10.1115/1.1413762
View articletitled, Highly Subcooled Boiling in Crossflow
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Subcooling , Nucleate boiling , Heat flux
Modeling of Heat Transfer in a Mist/Steam Impinging Jet
X. Li, Research Assistant, J. L. Gaddis, Professor Mem. ASME, T. Wang, Professor Mem. ASME
J. Heat Transfer. December 2001, 123(6): 1086–1092. doi: https://doi.org/10.1115/1.1409262
View articletitled, Modeling of Heat Transfer in a Mist/Steam Impinging Jet
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Topics: Drops , Heat transfer , Steam , Flow (Dynamics)
Heat Transfer in Combustion
Characterization of Particulate From Fires Burning Silicone Fluids
Yudaya Sivathanu, Anthony Hamins, George Mulholland, Takashi Kashiwagi, Robert Buch
J. Heat Transfer. December 2001, 123(6): 1093–1097. doi: https://doi.org/10.1115/1.1389057
View articletitled, Characterization of Particulate From Fires Burning Silicone Fluids
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Topics: Absorption , Combustion , Fire , Flames , Fluids , Particulate matter , Silicones , Temperature , Liquid pool fires , Wavelength
Heat Transfer in Manufacturing
Modeling of Heat Transfer and Kinetics of Physical Vapor Transport Growth of Silicon Carbide Crystals
Q.-S. Chen, Mem. ASME, H. Zhang, Mem. ASME, V. Prasad, Fellow ASME, Leading Professor, C. M. Balkas, N. K. Yushin
J. Heat Transfer. December 2001, 123(6): 1098–1109. doi: https://doi.org/10.1115/1.1409263
View articletitled, Modeling of Heat Transfer and Kinetics of Physical Vapor Transport Growth of Silicon Carbide Crystals
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Topics: Crystals , Heat transfer , Modeling , Pressure , Silicon , Temperature , Temperature distribution , Vapors , Temperature gradient , Heat
Melting and Freezing
Melting and Resolidification of a Substrate Caused by Molten Microdroplet Impact
D. Attinger, D. Poulikakos, Fellow ASME
J. Heat Transfer. December 2001, 123(6): 1110–1122. doi: https://doi.org/10.1115/1.1391274
View articletitled, Melting and Resolidification of a Substrate Caused by Molten Microdroplet Impact
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Topics: Drops , Fluid dynamics , Melting , Heat transfer , Solidification , Computer simulation , Convection
Microscale Heat Transfer
Thermal-Fluid Phenomena Induced by Nanosecond-Pulse Heating of Materials in Water
I. Ueno, M. Shoji
J. Heat Transfer. December 2001, 123(6): 1123–1132. doi: https://doi.org/10.1115/1.1409264
View articletitled, Thermal-Fluid Phenomena Induced by Nanosecond-Pulse Heating of Materials in Water
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Topics: Heating , Lasers , Pressure , Water , Shock waves , Pumps , Temperature , Bubbles , Fluence (Radiation measurement) , Signals
A Fractional-Diffusion Theory for Calculating Thermal Properties of Thin Films From Surface Transient Thermoreflectance Measurements
Vladimir V. Kulish, Assistant Professor, ASME Associate Member, Jose´ L. Lage, Professor, Mem. ASME, Pavel L. Komarov, Research Fellow, Assoc. Mem. ASME, Peter E. Raad, Professor, Mem. ASME
J. Heat Transfer. December 2001, 123(6): 1133–1138. doi: https://doi.org/10.1115/1.1416688
View articletitled, A Fractional-Diffusion Theory for Calculating Thermal Properties of Thin Films From Surface Transient Thermoreflectance Measurements
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Topics: Diffusion (Physics) , Gallium arsenide , Heating , Lasers , Temperature , Thermal conductivity , Thermal properties , Thermoreflectance , Thin films , Transients (Dynamics)
Heat Transfer Enhancement
Synchronization of Vortex Shedding and Heat Transfer Enhancement Over a Heated Cylinder Oscillating With Small Amplitude in Streamwise Direction
C. Gau, S. X. Wu, H. S. Su
J. Heat Transfer. December 2001, 123(6): 1139–1148. doi: https://doi.org/10.1115/1.1404121
View articletitled, Synchronization of Vortex Shedding and Heat Transfer Enhancement Over a Heated Cylinder Oscillating With Small Amplitude in Streamwise Direction
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Topics: Cylinders , Excitation , Flow (Dynamics) , Heat transfer , Synchronization , Vortex shedding , Vortices , Flow visualization , Oscillations
Characterization of the Effect of Corrugation Angles on Hydrodynamic and Heat Transfer Performance of Four-Start Spiral Tubes
X. D. Chen, X. Y. Xu, S. K. Nguang, Arthur E. Bergles
J. Heat Transfer. December 2001, 123(6): 1149–1158. doi: https://doi.org/10.1115/1.1409261
View articletitled, Characterization of the Effect of Corrugation Angles on Hydrodynamic and Heat Transfer Performance of Four-Start Spiral Tubes
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Topics: Artificial neural networks , Friction , Heat exchangers , Heat transfer , Heat transfer coefficients , Performance evaluation , Flow (Dynamics) , Reynolds number
Heat Pipes
Thermal Modeling of Unlooped and Looped Pulsating Heat Pipes
Mohammad B. Shafii, Amir Faghri, Fellow ASME, Yuwen Zhang, Mem. ASME
J. Heat Transfer. December 2001, 123(6): 1159–1172. doi: https://doi.org/10.1115/1.1409266
View articletitled, Thermal Modeling of Unlooped and Looped Pulsating Heat Pipes
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Topics: Heat , Heat pipes , Heat transfer , Heating , Pressure , Slug flows , Temperature , Vapors , Wall temperature , Condensation
Thermal Systems
Analysis of the Thermal Stress and Strain on Arrigo Fiammingo’s Artistic Window in the Cathedral of Perugia
Cinzia Buratti
J. Heat Transfer. December 2001, 123(6): 1173–1180. doi: https://doi.org/10.1115/1.1404120
View articletitled, Analysis of the Thermal Stress and Strain on Arrigo Fiammingo’s Artistic Window in the Cathedral of Perugia
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Topics: Glass , Stress , Thermal stresses

Technical Notes

Foundations of Buoyancy Driven Heat Transfer Correlations
Vedat S. Arpacı, Professor, ASME Fellow, Shu-Hsin Kao, Mem. ASME
J. Heat Transfer. December 2001, 123(6): 1181–1184. doi: https://doi.org/10.1115/1.1392987
View articletitled, Foundations of Buoyancy Driven Heat Transfer Correlations
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Topics: Buoyancy , Flow (Dynamics) , Heat transfer , Natural convection , Turbulence
Constructal Placement of High-Conductivity Inserts in a Slab: Optimal Design of “Roughness”
M. Neagu and, A. Bejan
J. Heat Transfer. December 2001, 123(6): 1184–1189. doi: https://doi.org/10.1115/1.1392988
View articletitled, Constructal Placement of High-Conductivity Inserts in a Slab: Optimal Design of “Roughness”
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Topics: Design , Electrical conductivity , Heat conduction , Surface roughness , Thermal conductivity , Slabs , Contact resistance , Heat
Some Algebraically Explicit Analytical Solutions of Unsteady Nonlinear Heat Conduction
Ruixian Cai, Na Zhang, Associate Professor
J. Heat Transfer. December 2001, 123(6): 1189–1191. doi: https://doi.org/10.1115/1.1392990
View articletitled, Some Algebraically Explicit Analytical Solutions of Unsteady Nonlinear Heat Conduction
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Topics: Heat conduction , Thermal conductivity , Specific heat

Discussion

Discussion: “Fin (On a Pipe) Effectiveness: One-Dimensional and Two-Dimensional” (Look, Jr., D. C., 1999, ASME J. of Heat Transfer, 121, No. 1, pp. 227–230)
P. Razelos
J. Heat Transfer. December 2001, 123(6): 1192–1193. doi: https://doi.org/10.1115/1.1413763
View articletitled, Discussion: “Fin (On a Pipe) Effectiveness: One-Dimensional and Two-Dimensional” (Look, Jr., D. C., 1999, ASME J. of Heat Transfer, <strong>121</strong>, No. 1, pp. 227–230)
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Topics: Heat transfer , Pipes , Flow (Dynamics) , Heat exchangers

Errata

Erratum: “A Scattering-Mediated Acoustic Mismatch Model for the Prediction of Thermal Boundary Resistance” [ASME J. Heat Transfer, 123, No. 1, pp. 105–112]
Ravi S. Prasher and, Patrick E. Phelan
J. Heat Transfer. December 2001, 123(6): 1194. doi: https://doi.org/10.1115/1.1403455
View articletitled, Erratum: “A Scattering-Mediated Acoustic Mismatch Model for the Prediction of Thermal Boundary Resistance” [ASME J. Heat Transfer, <strong>123</strong>, No. 1, pp. 105–112]
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Topics: Acoustics , Electromagnetic scattering , Heat transfer , Interfacial thermal resistance , Radiation scattering , Scattering (Physics) , Contact resistance , Cryogenics , Noise (Sound) , Thermal resistance
Erratum: “An Experimental Study of Heat Transfer of a Porous Channel Subjected to Oscillating Flow” [ASME J. Heat Transfer, 123, No. 1, pp. 162–170]
H. L. Fu,, K. C. Leong,, X. Y. Huang, and, C. Y. Liu
J. Heat Transfer. December 2001, 123(6): 1194. doi: https://doi.org/10.1115/1.1412482
View articletitled, Erratum: “An Experimental Study of Heat Transfer of a Porous Channel Subjected to Oscillating Flow” [ASME J. Heat Transfer, <strong>123</strong>, No. 1, pp. 162–170]
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Topics: Flow (Dynamics) , Heat transfer , Channel flow , Cooling , Fluid oscillations , Forced convection , Porous materials , Temperature distribution
All Issues
Effect of Rib Blockage Ratio and Arrangements on Impingement Heat Transfer in Double-Wall Cooling
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Numerical Simulation of Mixed Convection Cooling of Electronic Component Within a Lid-Driven Cubic Cavity Filled With Nanofluid
J. Heat Mass Transfer (September 2023)
Experimental Analysis of the Influential Factors on Mixed Convection Flow in Horizontal Pipes
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Influence of Impinging Jet Nozzle Movement On Heat Transfer Characteristics of a Flat Plate
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The Effect of Biot Number on a Generalized Heat Conduction Solution
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