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Volume 120, Issue 2
May 1998
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Research Papers

Analytical and Experimental Techniques
Nanoscale Temperature Distributions Measured by Scanning Joule Expansion Microscopy
A. Majumdar, J. Varesi
J. Heat Transfer. May 1998, 120(2): 297–305. doi: https://doi.org/10.1115/1.2824245
View articletitled, Nanoscale Temperature Distributions Measured by Scanning Joule Expansion Microscopy
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Topics: Joules , Microscopy , Nanoscale phenomena , Temperature , Temperature distribution , Atomic force microscopy , Imaging , Metals , Resolution (Optics) , Signals
Short-Time-Scale Thermal Mapping of Microdevices Using a Scanning Thermoreflectance Technique
Y. S. Ju, K. E. Goodson
J. Heat Transfer. May 1998, 120(2): 306–313. doi: https://doi.org/10.1115/1.2824246
View articletitled, Short-Time-Scale Thermal Mapping of Microdevices Using a Scanning Thermoreflectance Technique
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Topics: Thermoreflectance , Transients (Dynamics) , Lasers , Resolution (Optics) , Silicon-on-insulator , Temperature , Temperature distribution , Temperature measurement , Calibration , Heat conduction
A Data Reduction Procedure for Transient Heat Transfer Measurements in Long Internal Cooling Channels
J. von Wolfersdorf, R. Hoecker, C. Hirsch
J. Heat Transfer. May 1998, 120(2): 314–321. doi: https://doi.org/10.1115/1.2824248
View articletitled, A Data Reduction Procedure for Transient Heat Transfer Measurements in Long Internal Cooling Channels
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Topics: Cooling , Heat transfer , Transient heat transfer , Fluids , Heat transfer coefficients , Temperature , Ducts , Errors , Forced convection , Robustness
Properties and Property Measurements
Temperature-Dependent Absorptances of Ceramics for Nd:YAG and CO2 Laser Processing Applications
Z. Zhang, M. F. Modest
J. Heat Transfer. May 1998, 120(2): 322–327. doi: https://doi.org/10.1115/1.2824250
View articletitled, Temperature-Dependent Absorptances of Ceramics for Nd:YAG and CO<sub>2</sub> Laser Processing Applications
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Topics: Carbon dioxide lasers , Ceramics , Temperature , Lasers , Carbon dioxide , Machining , Wavelength , Ablation (Vaporization technology) , Ceramic matrix composites , Fibers
Conduction Heat Transfer
Inverse Determination of Steady Heat Convection Coefficient Distributions
T. J. Martin, G. S. Dulikravich
J. Heat Transfer. May 1998, 120(2): 328–334. doi: https://doi.org/10.1115/1.2824251
View articletitled, Inverse Determination of Steady Heat Convection Coefficient Distributions
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Topics: Algorithms , Boundary element methods , Boundary-value problems , Convection , Errors , Fluid dynamics , Fluids , Flux (Metallurgy) , Heat , Heat conduction
Forced Convection
Comparison of Heat Transfer Characteristics of Radial Jet Reattachment Nozzle to In-Line Impinging Jet Nozzle
J. Seyed-Yagoobi, V. Narayanan, R. H. Page
J. Heat Transfer. May 1998, 120(2): 335–341. doi: https://doi.org/10.1115/1.2824253
View articletitled, Comparison of Heat Transfer Characteristics of Radial Jet Reattachment Nozzle to In-Line Impinging Jet Nozzle
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Topics: Heat transfer , Nozzles , Flow (Dynamics) , Pressure , Jets , Fluid dynamics , Manufacturing , Materials processing
Heat Transfer Enhancement in Electronic Modules Using Various Secondary Air Injection Hole Arrangements
B. A. Jubran, M. S. Al-Haroun
J. Heat Transfer. May 1998, 120(2): 342–347. doi: https://doi.org/10.1115/1.2824254
View articletitled, Heat Transfer Enhancement in Electronic Modules Using Various Secondary Air Injection Hole Arrangements
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Topics: Heat transfer
Heat Transfer Characteristics of a Slot Jet Reattachment Nozzle
V. Narayanan, J. Seyed-Yagoobi, R. H. Page
J. Heat Transfer. May 1998, 120(2): 348–356. doi: https://doi.org/10.1115/1.2824255
View articletitled, Heat Transfer Characteristics of a Slot Jet Reattachment Nozzle
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Topics: Heat transfer , Jets , Nozzles , Flow (Dynamics) , Heat transfer coefficients , Reynolds number , Pressure
Natural and Mixed Convection
Constructal Optimization of Internal Flow Geometry in Convection
R. A. Nelson, Jr., A. Bejan
J. Heat Transfer. May 1998, 120(2): 357–364. doi: https://doi.org/10.1115/1.2824257
View articletitled, Constructal Optimization of Internal Flow Geometry in Convection
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Topics: Convection , Geometry , Internal flow , Optimization , Flow (Dynamics) , Fluids , Shapes , Diffusion (Physics) , Heat , Heat transfer
Boiling and Condensation
Steady-State Subcooled Nucleate Boiling on a Downward-Facing Hemispherical Surface
K. H. Haddad, F. B. Cheung
J. Heat Transfer. May 1998, 120(2): 365–370. doi: https://doi.org/10.1115/1.2824258
View articletitled, Steady-State Subcooled Nucleate Boiling on a Downward-Facing Hemispherical Surface
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Topics: Boiling , Nucleate boiling , Steady state , Subcooling , Bubbles , Heat , Heating , Vessels , Heat flux , Vapors
Competing Effects of Dielectrophoresis and Buoyancy on Nucleate Boiling and an Analogy With Variable Gravity Boiling Results
T. J. Snyder, J. N. Chung, J. B. Schneider
J. Heat Transfer. May 1998, 120(2): 371–379. doi: https://doi.org/10.1115/1.2824259
View articletitled, Competing Effects of Dielectrophoresis and Buoyancy on Nucleate Boiling and an Analogy With Variable Gravity Boiling Results
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Topics: Boiling , Buoyancy , Dielectrophoresis , Gravity (Force) , Nucleate boiling
Boiling Heat Transfer With Binary Mixtures: Part I—A Theoretical Model for Pool Boiling
S. G. Kandlikar
J. Heat Transfer. May 1998, 120(2): 380–387. doi: https://doi.org/10.1115/1.2824260
View articletitled, Boiling Heat Transfer With Binary Mixtures: Part I—A Theoretical Model for Pool Boiling
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Topics: Boiling , Heat transfer , Pool boiling , Heat transfer coefficients , Methanol , Water , Benzene , Bubbles , Diffusion (Physics) , Evaporation
Boiling Heat Transfer With Binary Mixtures: Part II—Flow Boiling in Plain Tubes
S. G. Kandlikar
J. Heat Transfer. May 1998, 120(2): 388–394. doi: https://doi.org/10.1115/1.2824262
View articletitled, Boiling Heat Transfer With Binary Mixtures: Part II—Flow Boiling in Plain Tubes
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Topics: Boiling , Flow (Dynamics) , Heat transfer
Heat Transfer Characteristics in Partial Boiling, Fully Developed Boiling, and Significant Void Flow Regions of Subcooled Flow Boiling
S. G. Kandlikar
J. Heat Transfer. May 1998, 120(2): 395–401. doi: https://doi.org/10.1115/1.2824263
View articletitled, Heat Transfer Characteristics in Partial Boiling, Fully Developed Boiling, and Significant Void Flow Regions of Subcooled Flow Boiling
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Subcooling
Film Boiling Incipience at the Departure From Natural Convection on Flat, Smooth Surfaces
J. Y. Chang, S. M. You, A. Haji-Sheikh
J. Heat Transfer. May 1998, 120(2): 402–409. doi: https://doi.org/10.1115/1.2824264
View articletitled, Film Boiling Incipience at the Departure From Natural Convection on Flat, Smooth Surfaces
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Topics: Boiling , Film boiling , Natural convection , Heat flux , Heat transfer , Nucleation (Physics) , Coating processes , Coatings , Cooling , Copper
A New Equivalent Reynolds Number Model for Condensation in Smooth Tubes
K. W. Moser, R. L. Webb, B. Na
J. Heat Transfer. May 1998, 120(2): 410–417. doi: https://doi.org/10.1115/1.2824265
View articletitled, A New Equivalent Reynolds Number Model for Condensation in Smooth Tubes
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Topics: Condensation , Reynolds number
Convective Condensation of Superheated Vapor
R. L. Webb
J. Heat Transfer. May 1998, 120(2): 418–421. doi: https://doi.org/10.1115/1.2824266
View articletitled, Convective Condensation of Superheated Vapor
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Topics: Condensation , Superheating , Vapors
Phase Change and Multiphase Heat Transfer
Freezing and Melting With Multiple Phase Fronts Along the Outside of a Tube
B. Vick, D. J. Nelson, X. Yu
J. Heat Transfer. May 1998, 120(2): 422–429. doi: https://doi.org/10.1115/1.2824267
View articletitled, Freezing and Melting With Multiple Phase Fronts Along the Outside of a Tube
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Topics: Freezing , Melting , Thermal energy storage , Temperature , Fluids , Boundary element methods , Transients (Dynamics) , Approximation , Cycles , Heat
A Model for Solidification Under the Influence of Thermoelectric and Magnetohydrodynamic Effects: Application to Peltier Demarcation During Directional Solidification With Different Gravitational Conditions
L. L. Zheng, H. Zhang, D. J. Larson, Jr., V. Prasad
J. Heat Transfer. May 1998, 120(2): 430–440. doi: https://doi.org/10.1115/1.2824268
View articletitled, A Model for Solidification Under the Influence of Thermoelectric and Magnetohydrodynamic Effects: Application to Peltier Demarcation During Directional Solidification With Different Gravitational Conditions
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Topics: Magnetohydrodynamics , Solidification
Heat Pipes
The Effects of Transverse Acceleration-Induced Body Forces on the Capillary Limit of Helically Grooved Heat Pipes
S. K. Thomas, K. S. Klasing, K. L. Yerkes
J. Heat Transfer. May 1998, 120(2): 441–451. doi: https://doi.org/10.1115/1.2824269
View articletitled, The Effects of Transverse Acceleration-Induced Body Forces on the Capillary Limit of Helically Grooved Heat Pipes
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Topics: Heat pipes
Capillary Performance of Evaporating Flow in Micro Grooves: An Analytical Approach for Very Small Tilt Angles
J. M. Ha, G. P. Peterson
J. Heat Transfer. May 1998, 120(2): 452–457. doi: https://doi.org/10.1115/1.2824270
View articletitled, Capillary Performance of Evaporating Flow in Micro Grooves: An Analytical Approach for Very Small Tilt Angles
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Topics: Evaporation , Flow (Dynamics) , Thin films , Axial flow , Geometry , Gravity (Force) , Heat flux , Microchannels , Multiphase flow
Porous Media
Heat Transfer Enhancement With Porous Inserts in Recirculating Flows
A. R. Martin, C. Saltiel, W. Shyy
J. Heat Transfer. May 1998, 120(2): 458–467. doi: https://doi.org/10.1115/1.2824271
View articletitled, Heat Transfer Enhancement With Porous Inserts in Recirculating Flows
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Topics: Flow (Dynamics) , Heat transfer
Heat Exchangers
Effects of Heat Exchanger Tube Parameters on Nucleate Pool Boiling Heat Transfer
Moon-Hyun Chun, Myeong-Gie Kang
J. Heat Transfer. May 1998, 120(2): 468–476. doi: https://doi.org/10.1115/1.2824272
View articletitled, Effects of Heat Exchanger Tube Parameters on Nucleate Pool Boiling Heat Transfer
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Topics: Heat exchangers , Heat transfer , Nucleate pool boiling
Heat Transfer Correlations for Liquid Film in the Evaporator of Enclosed, Gravity-Assisted Thermosyphons
M. S. El-Genk, H. H. Saber
J. Heat Transfer. May 1998, 120(2): 477–484. doi: https://doi.org/10.1115/1.2824273
View articletitled, Heat Transfer Correlations for Liquid Film in the Evaporator of Enclosed, Gravity-Assisted Thermosyphons
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Topics: Gravity (Force) , Heat transfer , Liquid films , Flux (Metallurgy) , Heat , Convection , Fluids , Nucleate boiling , Boiling , Ethanol
Impact of Channel Geometry on Two-Phase Flow Heat Transfer Characteristics of Refrigerants in Microchannel Heat Exchangers
T. S. Ravigururajan
J. Heat Transfer. May 1998, 120(2): 485–491. doi: https://doi.org/10.1115/1.2824274
View articletitled, Impact of Channel Geometry on Two-Phase Flow Heat Transfer Characteristics of Refrigerants in Microchannel Heat Exchangers
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Topics: Geometry , Heat exchangers , Heat transfer , Microchannels , Refrigerants , Two-phase flow , Heat transfer coefficients , Flow (Dynamics) , Heat , Heat flux
Heat Transfer in Manufacturing
A Boundary/Finite Element Analysis of Magnetic Levitation Systems: Surface Deformation and Thermal Phenomena
S. P. Song, B. Q. Li
J. Heat Transfer. May 1998, 120(2): 492–504. doi: https://doi.org/10.1115/1.2824275
View articletitled, A Boundary/Finite Element Analysis of Magnetic Levitation Systems: Surface Deformation and Thermal Phenomena
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Topics: Finite element analysis , Magnetic levitation , Surface deformation , Drops , Deformation , Heating , Shapes , Boundary element methods , Computers , Electromagnetic fields

Errata

Erratum: “Buoyancy-Induced Convection in a Narrow Open-Ended Annulus” (ASME J. Heat Transfer, 1997, 119, pp. 483–494)
K. Vafai
J. Heat Transfer. May 1998, 120(2): 356. doi: https://doi.org/10.1115/1.2824256
View articletitled, Erratum: “Buoyancy-Induced Convection in a Narrow Open-Ended Annulus” (ASME J. Heat Transfer, 1997, 119, pp. 483–494)
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Topics: Annulus , Buoyancy , Convection , Heat transfer

Technical Briefs

An Integral Method for the Compressible Laminar Boundary Layer
A. Pozzi, L. Mazzei
J. Heat Transfer. May 1998, 120(2): 505–506. doi: https://doi.org/10.1115/1.2824276
View articletitled, An Integral Method for the Compressible Laminar Boundary Layer
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Topics: Boundary layers , Flow separation , Forced convection , Numerical analysis
Unsteady Conjugate Heat Transfer in a Circular Duct With Convection From the Ambient and Periodically Varying Inlet Temperature
J. S. Travelho, W. F. N. Santos
J. Heat Transfer. May 1998, 120(2): 506–510. doi: https://doi.org/10.1115/1.2824277
View articletitled, Unsteady Conjugate Heat Transfer in a Circular Duct With Convection From the Ambient and Periodically Varying Inlet Temperature
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Topics: Convection , Ducts , Heat transfer , Temperature , Forced convection , Heat conduction
Conjugate Heat Transfer for Developing Flow Over Multiple Discrete Thermal Sources Flush-Mounted on the Wall
J.-J. Hwang
J. Heat Transfer. May 1998, 120(2): 510–514. doi: https://doi.org/10.1115/1.2824278
View articletitled, Conjugate Heat Transfer for Developing Flow Over Multiple Discrete Thermal Sources Flush-Mounted on the Wall
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Topics: Flow (Dynamics) , Heat transfer , Electronic equipment , Forced convection
A New Discrete Ordinates Quadrature Scheme for Three-Dimensional Radiative Heat Transfer
Ben-Wen Li, Qiang Yao, Xin-Yu Cao, Ke-Fa Cen
J. Heat Transfer. May 1998, 120(2): 514–518. doi: https://doi.org/10.1115/1.2824279
View articletitled, A New Discrete Ordinates Quadrature Scheme for Three-Dimensional Radiative Heat Transfer
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Topics: Heat transfer , Numerical analysis , Radiation (Physics) , Radiative heat transfer
Effects of Vibration on Ice Contact Melting Within Rectangular Enclosures
L. Quan, Z. Zhang, M. Faghri
J. Heat Transfer. May 1998, 120(2): 518–520. doi: https://doi.org/10.1115/1.2824280
View articletitled, Effects of Vibration on Ice Contact Melting Within Rectangular Enclosures
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Topics: Ice , Melting , Vibration , Natural convection
Nonuniform Overall Heat Transfer Coefficients in Conventional Heat Exchanger Design Theory—Revisited
R. K. Shah, D. P. Sekulic´
J. Heat Transfer. May 1998, 120(2): 520–525. doi: https://doi.org/10.1115/1.2824281
View articletitled, Nonuniform Overall Heat Transfer Coefficients in Conventional Heat Exchanger Design Theory—Revisited
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Topics: Design theory , Heat exchangers , Heat transfer coefficients , Modeling , Numerical analysis
Effect of Fouling on Temperature Measurement Error and a Solution
Y. I. Cho, B.-G. Choi
J. Heat Transfer. May 1998, 120(2): 525–528. doi: https://doi.org/10.1115/1.2824282
View articletitled, Effect of Fouling on Temperature Measurement Error and a Solution
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Topics: Errors , Probes , Temperature , Temperature measurement , Heat exchangers , Heat transfer , Process control systems , Resolution (Optics) , Thermocouples
Application of an Equivalent Single-Tube Model for Predicting the Frequency-Response Characteristics of Multitube Two-Phase Condensing Flow Systems With Thermal and Flow Distribution Asymmetry
C. J. Kobus, G. L. Wedekind, B. L. Bhatt
J. Heat Transfer. May 1998, 120(2): 528–530. doi: https://doi.org/10.1115/1.2824283
View articletitled, Application of an Equivalent Single-Tube Model for Predicting the Frequency-Response Characteristics of Multitube Two-Phase Condensing Flow Systems With Thermal and Flow Distribution Asymmetry
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Topics: Condensation , Flow (Dynamics) , Frequency response , Heat transfer , Multiphase flow , Transients (Dynamics)
Simplified and Accurate Mathematical Model for the Analysis of Heat and Moisture Transfer From Food Commodities
F. A. Ansari
J. Heat Transfer. May 1998, 120(2): 530–533. doi: https://doi.org/10.1115/1.2824285
View articletitled, Simplified and Accurate Mathematical Model for the Analysis of Heat and Moisture Transfer From Food Commodities
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Topics: Food products , Heat , Mass transfer , Refrigeration , Cooling , Boundary-value problems , Convection , Enthalpy , Forced convection , Solids
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
J. Heat Mass Transfer (September 2023)
Influence of Impinging Jet Nozzle Movement On Heat Transfer Characteristics of a Flat Plate
J. Heat Mass Transfer
The Effect of Biot Number on a Generalized Heat Conduction Solution
J. Heat Mass Transfer
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  • Print ISSN 2832-8450

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