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Volume 102, Issue 3
August 1980
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943
In this Issue

Research Papers

Experimental Study of Laminar Heat Transfer to In-Tube Flow of Non-Newtonian Fluids
S. D. Joshi, A. E. Bergles
J. Heat Transfer. August 1980, 102(3): 397–401. doi: https://doi.org/10.1115/1.3244312
View articletitled, Experimental Study of Laminar Heat Transfer to In-Tube Flow of Non-Newtonian Fluids
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Topics: Flow (Dynamics) , Heat transfer , Non-Newtonian fluids , Heat flux , Laminar flow , Rheology , Temperature , Temperature effects , Water
Fluid-to-Fluid Conjugate Heat Transfer for a Vertical Pipe—Internal Forced Convection and External Natural Convection
E. M. Sparrow, M. Faghri
J. Heat Transfer. August 1980, 102(3): 402–407. doi: https://doi.org/10.1115/1.3244313
View articletitled, Fluid-to-Fluid Conjugate Heat Transfer for a Vertical Pipe—Internal Forced Convection and External Natural Convection
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Topics: Fluids , Forced convection , Heat transfer , Natural convection , Pipes , Flow (Dynamics) , Wall temperature , Heat flux , Temperature , Boundary layers
Heat Transfer Coefficients on the Downstream Face of an Abrupt Enlargement or Inlet Constriction in a Pipe
E. M. Sparrow, J. E. O’Brien
J. Heat Transfer. August 1980, 102(3): 408–414. doi: https://doi.org/10.1115/1.3244314
View articletitled, Heat Transfer Coefficients on the Downstream Face of an Abrupt Enlargement or Inlet Constriction in a Pipe
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Topics: Heat transfer coefficients , Pipes , Flow (Dynamics) , Corners (Structural elements) , Fluids , Pressure , Reynolds number
New Parametrizations for Heat Transfer in Fins and Spines
A. D. Kraus, A. D. Snider
J. Heat Transfer. August 1980, 102(3): 415–419. doi: https://doi.org/10.1115/1.3244315
View articletitled, New Parametrizations for Heat Transfer in Fins and Spines
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Topics: Fins , Heat transfer
The Optimum Dimensions of Circular Fins with Variable Thermal Parameters
P. Razelos, K. Imre
J. Heat Transfer. August 1980, 102(3): 420–425. doi: https://doi.org/10.1115/1.3244316
View articletitled, The Optimum Dimensions of Circular Fins with Variable Thermal Parameters
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Topics: Dimensions , Fins , Thermal conductivity , Heat transfer coefficients
Measurements of Heat Transfer and Pressure Drop for an Array of Staggered Plates Aligned Parallel to an Air Flow
E. M. Sparrow, A. Hajiloo
J. Heat Transfer. August 1980, 102(3): 426–432. doi: https://doi.org/10.1115/1.3244317
View articletitled, Measurements of Heat Transfer and Pressure Drop for an Array of Staggered Plates Aligned Parallel to an Air Flow
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Topics: Air flow , Heat transfer , Plates (structures) , Pressure drop , Reynolds number , Heat transfer coefficients , Friction , Forced convection , Heat , Mass transfer
An Experimental Study of the Rapid Depressurization of Hot Water
Md. Alamgir, C. Y. Kan, J. H. Lienhard
J. Heat Transfer. August 1980, 102(3): 433–438. doi: https://doi.org/10.1115/1.3244318
View articletitled, An Experimental Study of the Rapid Depressurization of Hot Water
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Topics: Boiling water reactors , Hot water , Pressure , Pressurized water reactors , Waves
Flashing Inception in Flowing Liquids
O. C. Jones, Jr.
J. Heat Transfer. August 1980, 102(3): 439–444. doi: https://doi.org/10.1115/1.3244319
View articletitled, Flashing Inception in Flowing Liquids
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Topics: Flashing , Turbulence , Fluctuations (Physics) , Flow (Dynamics) , Reynolds number , Temperature
Dynamic Model of Enhanced Boiling Heat Transfer on Porous Surfaces—Part I: Experimental Investigation
W. Nakayama, T. Daikoku, H. Kuwahara, T. Nakajima
J. Heat Transfer. August 1980, 102(3): 445–450. doi: https://doi.org/10.1115/1.3244320
View articletitled, Dynamic Model of Enhanced Boiling Heat Transfer on Porous Surfaces—Part I: Experimental Investigation
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Topics: Boiling , Dynamic models , Heat transfer , Tunnels , Bubbles , Cavities , Cycles , Evaporation , Heat flux , Latent heat
Dynamic Model of Enhanced Boiling Heat Transfer on Porous Surfaces—Part II: Analytical Modeling
W. Nakayama, T. Daikoku, H. Kuwahara, T. Nakajima
J. Heat Transfer. August 1980, 102(3): 451–456. doi: https://doi.org/10.1115/1.3244321
View articletitled, Dynamic Model of Enhanced Boiling Heat Transfer on Porous Surfaces—Part II: Analytical Modeling
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Topics: Boiling , Bubbles , Cycles , Density , Dynamic models , Evaporation , Heat flux , Heat transfer , Latent heat , Modeling
On the Prediction of the Minimum Pool Boiling Heat Flux
J. H. Lienhard, V. K. Dhir
J. Heat Transfer. August 1980, 102(3): 457–460. doi: https://doi.org/10.1115/1.3244322
View articletitled, On the Prediction of the Minimum Pool Boiling Heat Flux
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Topics: Heat flux , Pool boiling , Collapse , Film boiling , Vapors , Cylinders , Flat plates , Waves
The Nature of Nucleation Site Interaction
R. L. Judd, C. H. Lavdas
J. Heat Transfer. August 1980, 102(3): 461–464. doi: https://doi.org/10.1115/1.3244323
View articletitled, The Nature of Nucleation Site Interaction
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Topics: Nucleation (Physics) , Bubbles , Emissions , Photography
Measurement of Vapor Superheat in Post-Critical-Heat-Flux Boiling
S. Nijhawan, J. C. Chen, R. K. Sundaram, E. J. London
J. Heat Transfer. August 1980, 102(3): 465–470. doi: https://doi.org/10.1115/1.3244324
View articletitled, Measurement of Vapor Superheat in Post-Critical-Heat-Flux Boiling
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Topics: Boiling , Heat , Vapors , Flow (Dynamics) , Equilibrium (Physics) , Probes , Temperature , Water
Prediction of Horizontal Tubeside Condensation of Pure Components Using Flow Regime Criteria
G. Breber, J. W. Palen, J. Taborek
J. Heat Transfer. August 1980, 102(3): 471–476. doi: https://doi.org/10.1115/1.3244325
View articletitled, Prediction of Horizontal Tubeside Condensation of Pure Components Using Flow Regime Criteria
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Topics: Condensation , Flow (Dynamics) , Heat transfer coefficients , Condensed matter , Gravity (Force) , Shear (Mechanics) , Vapors
Dropwise Condensation on Surfaces Having Different Thermal Conductivities
S. A. Stylianou, J. W. Rose
J. Heat Transfer. August 1980, 102(3): 477–482. doi: https://doi.org/10.1115/1.3244326
View articletitled, Dropwise Condensation on Surfaces Having Different Thermal Conductivities
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Topics: Condensation , Copper , Temperature , Bronze , Thermocouples , Heat flux , Vapors , Errors , Gases , Heat conduction
Nonlinear Stability of Film Condensation
M. U¨nsal, W. C. Thomas
J. Heat Transfer. August 1980, 102(3): 483–488. doi: https://doi.org/10.1115/1.3244327
View articletitled, Nonlinear Stability of Film Condensation
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Topics: Film condensation , Stability , Condensed matter , Wave motion , Waves , Condensation , Equilibrium (Physics) , Steam , Vapors
Experiments on Transient Condensing Flow through a Porous Medium
R. H. Nilson, P. C. Montoya
J. Heat Transfer. August 1980, 102(3): 489–494. doi: https://doi.org/10.1115/1.3244328
View articletitled, Experiments on Transient Condensing Flow through a Porous Medium
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Topics: Flow (Dynamics) , Porous materials , Transients (Dynamics) , Vapors , Condensation , Sands , Combustion , Condensed matter , Containment , Energy transformation
Transient and Frequency Response Characteristics of Two-Phase Condensing Flows: With and without Compressibility
B. L. Bhatt, G. L. Wedekind
J. Heat Transfer. August 1980, 102(3): 495–500. doi: https://doi.org/10.1115/1.3244330
View articletitled, Transient and Frequency Response Characteristics of Two-Phase Condensing Flows: With and without Compressibility
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Topics: Compressibility , Flow (Dynamics) , Frequency response , Transients (Dynamics) , Surges , Condensation , Condensers (steam plant) , Porosity , Vapors
Lower Bound Estimate for Droplet Size in Two-Phase Dispersed Flow
C. F. Delale
J. Heat Transfer. August 1980, 102(3): 501–507. doi: https://doi.org/10.1115/1.3244331
View articletitled, Lower Bound Estimate for Droplet Size in Two-Phase Dispersed Flow
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Topics: Drops , Flow (Dynamics) , Critical heat flux , Heart failure , Heat transfer , Wall temperature
An Analysis of Heat Transfer to Axial Dispersed Flow between Rod Bundles under Reactor Emergency Cooling Conditions
S. Wong, L. E. Hochreiter
J. Heat Transfer. August 1980, 102(3): 508–512. doi: https://doi.org/10.1115/1.3244332
View articletitled, An Analysis of Heat Transfer to Axial Dispersed Flow between Rod Bundles under Reactor Emergency Cooling Conditions
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Topics: Cooling , Emergencies , Flow (Dynamics) , Fuel rods , Heat transfer , Annulus , Pipes , Approximation , Drops , Fuels
Heat Transfer from a Flat Plate in Two-Component Mist Flow
K. Hishida, M. Maeda, S. Ikai
J. Heat Transfer. August 1980, 102(3): 513–518. doi: https://doi.org/10.1115/1.3244333
View articletitled, Heat Transfer from a Flat Plate in Two-Component Mist Flow
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Topics: Flat plates , Flow (Dynamics) , Heat transfer , Water , Boundary layers , Drops , Heat transfer coefficients , Wall temperature , Evaporation , Laser Doppler anemometry
Heat Transfer to Curved Surfaces from Heat Generating Pools
J. D. Gabor, L. Baker, Jr., J. C. Cassulo, D. J. Erskine, J. G. Warner
J. Heat Transfer. August 1980, 102(3): 519–524. doi: https://doi.org/10.1115/1.3244334
View articletitled, Heat Transfer to Curved Surfaces from Heat Generating Pools
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Topics: Heat , Heat transfer , Boiling , Rayleigh number , Reynolds number , Vapors
Experimental Study of the Transition from Forced to Natural Circulation in EBR-II at Low Power and Flow
J. L. Gillette, R. M. Singer, J. V. Tokar, J. E. Sullivan
J. Heat Transfer. August 1980, 102(3): 525–530. doi: https://doi.org/10.1115/1.3244335
View articletitled, Experimental Study of the Transition from Forced to Natural Circulation in EBR-II at Low Power and Flow
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Topics: Flow (Dynamics) , Breeder reactors , Dynamics (Mechanics) , Heat exchangers , Metals , Pumps , Temperature
A Numerical Investigation of Thermal Convection in a Heat-Generating Fluid Layer
A. A. Emara, F. A. Kulacki
J. Heat Transfer. August 1980, 102(3): 531–537. doi: https://doi.org/10.1115/1.3244336
View articletitled, A Numerical Investigation of Thermal Convection in a Heat-Generating Fluid Layer
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Topics: Convection , Fluids , Heat , Flow (Dynamics) , Temperature , Rayleigh number , Boundary-value problems , Computation , Eddies (Fluid dynamics) , Energy resources
Combined Heat and Mass Transfer in Mixed Convection over a Horizontal Flat Plate
T. S. Chen, F. A. Strobel
J. Heat Transfer. August 1980, 102(3): 538–543. doi: https://doi.org/10.1115/1.3244337
View articletitled, Combined Heat and Mass Transfer in Mixed Convection over a Horizontal Flat Plate
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Topics: Flat plates , Heat , Mass transfer , Mixed convection , Buoyancy , Diffusion (Physics) , Flow (Dynamics) , Boundary layers , Friction , Gases
The Onset of Longitudinal Vortices in Mixed Convective Flow over an Inclined Surface in a Porous Medium
C. T. Hsu, P. Cheng
J. Heat Transfer. August 1980, 102(3): 544–549. doi: https://doi.org/10.1115/1.3244338
View articletitled, The Onset of Longitudinal Vortices in Mixed Convective Flow over an Inclined Surface in a Porous Medium
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Topics: Flow (Dynamics) , Porous materials , Vortices , Boundary layers , Eigenvalues , Heat flux , Mixed convection , Perturbation theory , Stability , Wall temperature
Free Convection Heat Transfer Characteristics in a Melt Water Layer
Yin-Chao Yen
J. Heat Transfer. August 1980, 102(3): 550–556. doi: https://doi.org/10.1115/1.3244339
View articletitled, Free Convection Heat Transfer Characteristics in a Melt Water Layer
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Topics: Heat transfer , Natural convection , Water , Melting , Temperature , Convection , Ice , Temperature profiles , Bubbles , Cylinders
Effects of Water Temperature and Salt Concentration on the Characteristics of Horizontal Buoyant Submerged Jets
J. B. Riester, R. A. Bajura, S. H. Schwartz
J. Heat Transfer. August 1980, 102(3): 557–562. doi: https://doi.org/10.1115/1.3244340
View articletitled, Effects of Water Temperature and Salt Concentration on the Characteristics of Horizontal Buoyant Submerged Jets
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Topics: Jets , Water temperature , Reservoirs , Temperature , Water , Flow (Dynamics) , Buoyancy , Temperature effects , Thermal expansion , Trajectories (Physics)
Directional Control of Radiation Heat Transfer by V-Groove Cavities—Collimation of Energy in Direction Normal to Cavity Opening
H. Masuda
J. Heat Transfer. August 1980, 102(3): 563–567. doi: https://doi.org/10.1115/1.3244341
View articletitled, Directional Control of Radiation Heat Transfer by V-Groove Cavities—Collimation of Energy in Direction Normal to Cavity Opening
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Topics: Cavities , Heat transfer , Radiation (Physics) , Symmetry (Physics)

Errata

Erratum: “Effect of Density Change on Multidimensional Heat Conduction Phase Change” (Journal of Heat Transfer, 1976, 98, pp. 550–557)
N. Shamsunder, E. M. Sparrow
J. Heat Transfer. August 1980, 102(3): 494. doi: https://doi.org/10.1115/1.3244329
View articletitled, Erratum: “Effect of Density Change on Multidimensional Heat Conduction Phase Change” (Journal of Heat Transfer, 1976, 98, pp. 550–557)
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Topics: Density , Heat conduction , Heat transfer

Technical Briefs

Heat Transfer in a Tube Downstream of a Tee in which Airstreams of Different Temperature are Mixed
E. M. Sparrow, N. Cur, R. G. Kemink
J. Heat Transfer. August 1980, 102(3): 568–570. doi: https://doi.org/10.1115/1.3244342
View articletitled, Heat Transfer in a Tube Downstream of a Tee in which Airstreams of Different Temperature are Mixed
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Topics: Heat transfer , Temperature
Further Studies on the Delayed Hot Water Problem
P. C. Lu
J. Heat Transfer. August 1980, 102(3): 570–572. doi: https://doi.org/10.1115/1.3244343
View articletitled, Further Studies on the Delayed Hot Water Problem
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Topics: Hot water
Effect of Interstitial Fluid Heat Capacity on Regenerator Performance
I. L. Maclaine-cross
J. Heat Transfer. August 1980, 102(3): 572–574. doi: https://doi.org/10.1115/1.3244344
View articletitled, Effect of Interstitial Fluid Heat Capacity on Regenerator Performance
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Topics: Fluids , Heat capacity
Approximate Treatment of Transverse Conduction in Regenerators
F. E. Romie
J. Heat Transfer. August 1980, 102(3): 574–576. doi: https://doi.org/10.1115/1.3244345
View articletitled, Approximate Treatment of Transverse Conduction in Regenerators
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Topics: Heat conduction
An Instrument for the Measurement of Heat Flux from a Surface with Uniform Temperature
J. S. Kraabel, J. W. Baughn, A. A. McKillop
J. Heat Transfer. August 1980, 102(3): 576–578. doi: https://doi.org/10.1115/1.3244346
View articletitled, An Instrument for the Measurement of Heat Flux from a Surface with Uniform Temperature
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Topics: Heat flux , Instrumentation , Temperature
Analytic Solution to Inverse Heat Conduction Problems with Periodicity
D. M. France, T. Chiang
J. Heat Transfer. August 1980, 102(3): 579–581. doi: https://doi.org/10.1115/1.3244347
View articletitled, Analytic Solution to Inverse Heat Conduction Problems with Periodicity
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Topics: Heat conduction
Thermal Instability in Liquid Droplets on a Heated Surface
J. C. Han, Wen-Jei Yang
J. Heat Transfer. August 1980, 102(3): 581–583. doi: https://doi.org/10.1115/1.3244348
View articletitled, Thermal Instability in Liquid Droplets on a Heated Surface
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Topics: Drops

Discussions

Discussion: “Shape of Two-Dimensional Solidification Interface During Directional Solidification by Continuous Casting” (Siegel, R., 1978, ASME J. Heat Transfer, 100, pp. 3–10)
T. Ja´szay, T. Ko¨rnyey, P. Radenkovits
J. Heat Transfer. August 1980, 102(3): 584–586. doi: https://doi.org/10.1115/1.3244349
View articletitled, Discussion: “Shape of Two-Dimensional Solidification Interface During Directional Solidification by Continuous Casting” (Siegel, R., 1978, ASME J. Heat Transfer, 100, pp. 3–10)
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Topics: Casting , Heat transfer , Shapes , Solidification
Discussion: “A Parametric Analysis of the Performance of Internally Finned Tubes for Heat Exchanger Application” (Webb, R. L., and Scott, M. J., 1980, ASME J. Heat Transfer, 102, pp. 38–43)
A. Bejan
J. Heat Transfer. August 1980, 102(3): 586–587. doi: https://doi.org/10.1115/1.3244350
View articletitled, Discussion: “A Parametric Analysis of the Performance of Internally Finned Tubes for Heat Exchanger Application” (Webb, R. L., and Scott, M. J., 1980, ASME J. Heat Transfer, 102, pp. 38–43)
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Topics: Heat exchangers , Heat transfer
All Issues
Exploration of the Effects of Nanoscale Surface Morphology Variations on Onset of Bubble Nucleation in Water Droplets Impinging and Boiling on Nanostructured Surfaces
J. Heat Mass Transfer
Improved Inverse Explicit Method for 3D Source Term Estimation with the Classical Integral Transform Technique
J. Heat Mass Transfer
Role of Single and Dual-Cavity Structures Inside Evaporator on the Enhancement of Thermal Performance of Pulsating Heat Pipes
J. Heat Mass Transfer
External Conjugate Boiling on Channels. A Graetz Problem With Multiple Solutions
J. Heat Mass Transfer (June 2025)
Computational Study on Single-Phase Lag and Dual-Phase Lag Bio-Heat Models of Heat Transfer in Irregular Tumors During Magnetic Nanoparticles Hyperthermia
J. Heat Mass Transfer (June 2025)
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