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Volume 104, Issue 1
February 1982
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943
In this Issue

Research Papers

Frost Formation on Vertical Cylinders in Free Convection
C. J. Cremers, V. K. Mehra
J. Heat Transfer. February 1982, 104(1): 3–7. doi: https://doi.org/10.1115/1.3245065
View articletitled, Frost Formation on Vertical Cylinders in Free Convection
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Topics: Cylinders , Natural convection , Flow (Dynamics) , Heat transfer
Approximate Calculation of Multidimensional Solidification by Using Conduction Shape Factors
N. Shamsundar
J. Heat Transfer. February 1982, 104(1): 8–12. doi: https://doi.org/10.1115/1.3245073
View articletitled, Approximate Calculation of Multidimensional Solidification by Using Conduction Shape Factors
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Topics: Heat conduction , Shapes , Solidification , Boundary-value problems , Freezing , Heat transfer , Temperature
Analysis of Solidification Interface Shape Resulting From Applied Sinusoidal Heating
R. Siegel
J. Heat Transfer. February 1982, 104(1): 13–18. doi: https://doi.org/10.1115/1.3245041
View articletitled, Analysis of Solidification Interface Shape Resulting From Applied Sinusoidal Heating
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Topics: Heating , Shapes , Solidification , Heat transfer , Casting , Composite materials , Crystals , Heat flux , Manufacturing , Metal castings
Melting Within a Spherical Enclosure
F. E. Moore, Y. Bayazitoglu
J. Heat Transfer. February 1982, 104(1): 19–23. doi: https://doi.org/10.1115/1.3245053
View articletitled, Melting Within a Spherical Enclosure
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Topics: Melting , Density , Phase change materials , Temperature , Energy storage , Flow (Dynamics) , Shells , Temperature profiles
Analytical and Experimental Investigation of Simultaneous Melting-Condensation on a Vertical Wall
K. Taghavi-Tafreshi, V. K. Dhir
J. Heat Transfer. February 1982, 104(1): 24–33. doi: https://doi.org/10.1115/1.3245063
View articletitled, Analytical and Experimental Investigation of Simultaneous Melting-Condensation on a Vertical Wall
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Topics: Condensation , Melting , Condensed matter , Boundary layers , Flow (Dynamics) , Gravity (Force) , Heat transfer , Prandtl number , Shapes , Slabs
Comparison of Profiles and Fluxes of Heat and Momentum Above and Below an Air-Water Interface
B. M. Howe, A. J. Chambers, S. P. Klotz, T. K. Cheung, R. L. Street
J. Heat Transfer. February 1982, 104(1): 34–39. doi: https://doi.org/10.1115/1.3245064
View articletitled, Comparison of Profiles and Fluxes of Heat and Momentum Above and Below an Air-Water Interface
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Topics: Flux (Metallurgy) , Heat , Momentum , Water , Heat transfer , Temperature , Turbulence , Boundary layers , Fluctuations (Physics) , Surface roughness
A Study on Limiting Exit Quality of CHF of Forced Convection Boiling in Uniformly Heated Vertical Channels
Y. Katto
J. Heat Transfer. February 1982, 104(1): 40–47. doi: https://doi.org/10.1115/1.3245066
View articletitled, A Study on Limiting Exit Quality of CHF of Forced Convection Boiling in Uniformly Heated Vertical Channels
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Topics: Boiling , Critical heat flux , Forced convection , Subcooling
Forced-Convective Post-CHF Heat Transfer and Quenching
R. A. Nelson
J. Heat Transfer. February 1982, 104(1): 48–54. doi: https://doi.org/10.1115/1.3245067
View articletitled, Forced-Convective Post-CHF Heat Transfer and Quenching
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Topics: Critical heat flux , Heart failure , Heat transfer , Quenching (Metalworking) , Transients (Dynamics) , Fuel rods , Heat flux , Nuclear reactor safety , Nucleation (Physics) , Temperature
Heat Transfer From Combustion Gases to a Single Row of Closely Spaced Tubes in a Swirl Crossflow Stirling Engine Heater
C. P. Bankston, L. H. Back
J. Heat Transfer. February 1982, 104(1): 55–61. doi: https://doi.org/10.1115/1.3245068
View articletitled, Heat Transfer From Combustion Gases to a Single Row of Closely Spaced Tubes in a Swirl Crossflow Stirling Engine Heater
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Topics: Combustion gases , Heat transfer , Stirling engines , Combustion chambers , Heat exchangers , Fluids , Geometry , Solar energy , Water
Transient Heat-Flux Measurements in the Combustion Chamber of a Spark-Ignition Engine
A. C. Alkidas, J. P. Myers
J. Heat Transfer. February 1982, 104(1): 62–67. doi: https://doi.org/10.1115/1.3245069
View articletitled, Transient Heat-Flux Measurements in the Combustion Chamber of a Spark-Ignition Engine
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Topics: Combustion chambers , Heat flux , Spark-ignition engine , Transients (Dynamics) , Cycles , Cylinders , Valves , Engines , Exhaust systems , Flames
Scaling Anisotropic Scattering in Radiation Heat Transfer for a Planar Medium
H. Lee, R. O. Buckius
J. Heat Transfer. February 1982, 104(1): 68–75. doi: https://doi.org/10.1115/1.3245070
View articletitled, Scaling Anisotropic Scattering in Radiation Heat Transfer for a Planar Medium
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Topics: Anisotropy , Electromagnetic scattering , Heat transfer , Radiation (Physics) , Radiation scattering , Scattering (Physics) , Approximation , Albedo
Heat-Transfer Augmentation in Rod Bundles Near Grid Spacers
S. C. Yao, L. E. Hochreiter, W. J. Leech
J. Heat Transfer. February 1982, 104(1): 76–81. doi: https://doi.org/10.1115/1.3245071
View articletitled, Heat-Transfer Augmentation in Rod Bundles Near Grid Spacers
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Topics: Fuel rods , Heat transfer , Flow (Dynamics) , Critical heat flux , Swirling flow , Convection , Cooling , Heat flux , Thermal radiation , Vapors
Turbulent Heat Transfer in a Symmetrically or Asymmetrically Heated Flat Rectangular Duct With Flow Separation at Inlet
E. M. Sparrow, N. Cur
J. Heat Transfer. February 1982, 104(1): 82–89. doi: https://doi.org/10.1115/1.3245072
View articletitled, Turbulent Heat Transfer in a Symmetrically or Asymmetrically Heated Flat Rectangular Duct With Flow Separation at Inlet
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Topics: Ducts , Flow separation , Turbulent heat transfer , Heat transfer coefficients , Heating , Entrance region , Heat transfer , Flow (Dynamics) , Reynolds number , Temperature
Conjugated Heat Transfer in a Laminar Boundary Layer With Heat Source at the Wall
A. Brosh, D. Degani, S. Zalmanovich
J. Heat Transfer. February 1982, 104(1): 90–95. doi: https://doi.org/10.1115/1.3245074
View articletitled, Conjugated Heat Transfer in a Laminar Boundary Layer With Heat Source at the Wall
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Topics: Boundary layers , Heat , Heat transfer , Fluids , Temperature , Flow (Dynamics) , Heat conduction , Sensors , Separation (Technology) , Forced convection
Heat Transfer by Natural Convection Across Vertical and Inclined Air Layers
S. M. ElSherbiny, G. D. Raithby, K. G. T. Hollands
J. Heat Transfer. February 1982, 104(1): 96–102. doi: https://doi.org/10.1115/1.3245075
View articletitled, Heat Transfer by Natural Convection Across Vertical and Inclined Air Layers
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Topics: Heat transfer , Natural convection , Plates (structures) , Heat , Rayleigh number , Solar collectors , Temperature , Temperature distribution
High Rayleigh Number Laminar Convection in Low Aspect Ratio Enclosures With Adiabatic Horizontal Walls and Differentially Heated Vertical Walls
J. Tichy, A. Gadgil
J. Heat Transfer. February 1982, 104(1): 103–110. doi: https://doi.org/10.1115/1.3245035
View articletitled, High Rayleigh Number Laminar Convection in Low Aspect Ratio Enclosures With Adiabatic Horizontal Walls and Differentially Heated Vertical Walls
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Topics: Convection , Rayleigh number , Flow (Dynamics) , Temperature profiles , Boundary layers , Cavities , Laminar flow , Linings (Textiles) , Prandtl number
The Effect of Thermal Wall Properties on Natural Convection in Inclined Rectangular Cells
B. A. Meyer, J. W. Mitchell, M. M. El-Wakil
J. Heat Transfer. February 1982, 104(1): 111–117. doi: https://doi.org/10.1115/1.3245036
View articletitled, The Effect of Thermal Wall Properties on Natural Convection in Inclined Rectangular Cells
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Topics: Natural convection , Convection , Heat transfer , Prandtl number , Rayleigh number , Solar collectors , Thermal conductivity , Wall thickness
Natural Convection in the Annulus Between Horizontal Circular Cylinders With Three Axial Spacers
S. S. Kwon, T. H. Kuehn, T. S. Lee
J. Heat Transfer. February 1982, 104(1): 118–124. doi: https://doi.org/10.1115/1.3245037
View articletitled, Natural Convection in the Annulus Between Horizontal Circular Cylinders With Three Axial Spacers
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Topics: Annulus , Circular cylinders , Natural convection , Heat transfer , Thermal conductivity , Cylinders , Temperature distribution , Approximation , Atmospheric pressure , Computation
Heat Transfer by Natural Convection From an Array of Short, Wall-Attached Horizontal Cylinders
E. M. Sparrow, D. S. Cook, G. M. Chrysler
J. Heat Transfer. February 1982, 104(1): 125–131. doi: https://doi.org/10.1115/1.3245038
View articletitled, Heat Transfer by Natural Convection From an Array of Short, Wall-Attached Horizontal Cylinders
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Topics: Cylinders , Heat transfer , Natural convection , Rayleigh number , Vertical plates , Heat transfer coefficients
Unsteady Mixed Convection Near the Stagnation Point in Three-Dimensional Flow
M. Kumari, G. Nath
J. Heat Transfer. February 1982, 104(1): 132–138. doi: https://doi.org/10.1115/1.3245039
View articletitled, Unsteady Mixed Convection Near the Stagnation Point in Three-Dimensional Flow
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Topics: Flow (Dynamics) , Mixed convection , Heat transfer , Skin friction (Fluid dynamics) , Buoyancy , Mass transfer , Wall temperature , Boundary layers , Natural convection , Prandtl number
An Experimental Study of Mixed, Forced, and Free Convection Heat Transfer From a Horizontal Flat Plate to Air
X. A. Wang
J. Heat Transfer. February 1982, 104(1): 139–144. doi: https://doi.org/10.1115/1.3245040
View articletitled, An Experimental Study of Mixed, Forced, and Free Convection Heat Transfer From a Horizontal Flat Plate to Air
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Topics: Flat plates , Heat transfer , Natural convection , Buoyancy , Heat transfer coefficients , Mixed convection , Reynolds number , Temperature , Wind tunnels
Free Convection Effects on Laminar Forced Convective Heat Transfer in a Horizontal Isothermal Tube
W. W. Yousef, J. D. Tarasuk
J. Heat Transfer. February 1982, 104(1): 145–152. doi: https://doi.org/10.1115/1.3245042
View articletitled, Free Convection Effects on Laminar Forced Convective Heat Transfer in a Horizontal Isothermal Tube
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Topics: Convection , Natural convection , Buoyancy , Entrance region , Heat transfer , Laminar flow , Reynolds number , Temperature
Combined Forced and Free Convection in the Entrance Region of an Isothermally Heated Horizontal Pipe
Mikio Hishida, Yasutaka Nagano, M. S. Montesclaros
J. Heat Transfer. February 1982, 104(1): 153–159. doi: https://doi.org/10.1115/1.3245043
View articletitled, Combined Forced and Free Convection in the Entrance Region of an Isothermally Heated Horizontal Pipe
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Topics: Entrance region , Natural convection , Pipes , Flow (Dynamics) , Buoyancy , Convection , Heat transfer , Momentum , Poisson equation , Prandtl number
On the Thermal Instability of Superposed Porous and Fluid Layers
C. W. Somerton, I. Catton
J. Heat Transfer. February 1982, 104(1): 160–165. doi: https://doi.org/10.1115/1.3245044
View articletitled, On the Thermal Instability of Superposed Porous and Fluid Layers
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Topics: Fluids , Convection , Rayleigh number , Stability
Low Rayleigh Number Thermal Convection in a Vertical Cylinder Filled With Porous Materials and Heated From Below
H. H. Bau, K. E. Torrance
J. Heat Transfer. February 1982, 104(1): 166–172. doi: https://doi.org/10.1115/1.3245045
View articletitled, Low Rayleigh Number Thermal Convection in a Vertical Cylinder Filled With Porous Materials and Heated From Below
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Topics: Convection , Cylinders , Porous materials , Rayleigh number , Circular cylinders , Flow (Dynamics) , Heat transfer , Stability , Temperature measurement
Temperature Profiles and Aquifer Mass Transfer in a Circulating Well
C. A. Oster, W. A. Scheffler
J. Heat Transfer. February 1982, 104(1): 173–179. doi: https://doi.org/10.1115/1.3245046
View articletitled, Temperature Profiles and Aquifer Mass Transfer in a Circulating Well
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Topics: Density , Drilling , Fluids , Mass transfer , Temperature distribution , Temperature profiles , Water
The Possibility of Multiple Temperature Maxima in Geologic Repositories for Spent Fuel From Nuclear Reactors
S. W. Beyerlein, H. C. Claiborne
J. Heat Transfer. February 1982, 104(1): 180–184. doi: https://doi.org/10.1115/1.3245047
View articletitled, The Possibility of Multiple Temperature Maxima in Geologic Repositories for Spent Fuel From Nuclear Reactors
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Topics: Nuclear reactors , Spent nuclear fuels , Temperature , Heat transfer , Pressurized water reactors , Fuels , Heat , Nuclides
A Non-Self-Adjoint Problem in Heat Conduction
D. Ramkrishna, N. R. Amundson
J. Heat Transfer. February 1982, 104(1): 185–190. doi: https://doi.org/10.1115/1.3245048
View articletitled, A Non-Self-Adjoint Problem in Heat Conduction
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Topics: Heat conduction , Boundary-value problems

Technical Briefs

Thermoeconomically Optimum Counterflow Heat Exchanger Effectiveness
D. K. Edwards, R. Matavosian
J. Heat Transfer. February 1982, 104(1): 191–193. doi: https://doi.org/10.1115/1.3245049
View articletitled, Thermoeconomically Optimum Counterflow Heat Exchanger Effectiveness
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Topics: Heat exchangers
Solidification of a Conglomerate of Particles
B. Rubinsky
J. Heat Transfer. February 1982, 104(1): 193–196. doi: https://doi.org/10.1115/1.3245050
View articletitled, Solidification of a Conglomerate of Particles
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Topics: Particulate matter , Solidification
Thermal Stresses During Solidification Processes
B. Rubinsky
J. Heat Transfer. February 1982, 104(1): 196–199. doi: https://doi.org/10.1115/1.3245051
View articletitled, Thermal Stresses During Solidification Processes
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Topics: Solidification , Thermal stresses
Downward Penetration of a Hot Liquid Pool Into the Horizontal Surface of a Solid
R. Farhadieh, M. Epstein
J. Heat Transfer. February 1982, 104(1): 199–201. doi: https://doi.org/10.1115/1.3245052
View articletitled, Downward Penetration of a Hot Liquid Pool Into the Horizontal Surface of a Solid
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A Simpler Formulation for Radiative View Factors From Spheres to a Class of Axisymmetric Bodies
B. T. F. Chung, M. H. N. Naraghi
J. Heat Transfer. February 1982, 104(1): 201–204. doi: https://doi.org/10.1115/1.3245054
View articletitled, A Simpler Formulation for Radiative View Factors From Spheres to a Class of Axisymmetric Bodies
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Conjugate Forced Convection-Conduction Analysis of Heat Transfer in a Plate Fin
E. M. Sparrow, M. K. Chyu
J. Heat Transfer. February 1982, 104(1): 204–206. doi: https://doi.org/10.1115/1.3245055
View articletitled, Conjugate Forced Convection-Conduction Analysis of Heat Transfer in a Plate Fin
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Topics: Convection , Heat conduction , Heat transfer
An Analytical Study of Bubble and Adjacent Tube Influence on Heat Transfer to a Horizontal Tube in a Gas Fluidized Bed
R. L. Adams, J. R. Welty
J. Heat Transfer. February 1982, 104(1): 206–209. doi: https://doi.org/10.1115/1.3245056
View articletitled, An Analytical Study of Bubble and Adjacent Tube Influence on Heat Transfer to a Horizontal Tube in a Gas Fluidized Bed
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Topics: Bubbles , Fluidized beds , Heat transfer
The Analysis of Fin Assembly Heat Transfer by a Series Truncation Method
P. J. Heggs, D. B. Ingham, M. Manzoor
J. Heat Transfer. February 1982, 104(1): 210–212. doi: https://doi.org/10.1115/1.3245057
View articletitled, The Analysis of Fin Assembly Heat Transfer by a Series Truncation Method
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Topics: Heat transfer , Manufacturing
Determination of Physical Properties of Heat Transfer Sensors From Vacuum Heat Loss Observations
M. R. Davis
J. Heat Transfer. February 1982, 104(1): 213–215. doi: https://doi.org/10.1115/1.3245058
View articletitled, Determination of Physical Properties of Heat Transfer Sensors From Vacuum Heat Loss Observations
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Topics: Heat losses , Heat transfer , Sensors , Vacuum
Effect of Fluid Carryover on Regenerator Performance
P. J. Banks
J. Heat Transfer. February 1982, 104(1): 215–217. doi: https://doi.org/10.1115/1.3245059
View articletitled, Effect of Fluid Carryover on Regenerator Performance
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Topics: Fluids

Discussions

Discussion: “Strongly Implicit Algorithm for Use in Three-Dimensional National Convection Studies” (Pepper, D. W., and Copper, R. E., 1979, ASME J. Heat Transfer, 101, pp. 739–741)
P. M. Beckett
J. Heat Transfer. February 1982, 104(1): 218. doi: https://doi.org/10.1115/1.3245060
View articletitled, Discussion: “Strongly Implicit Algorithm for Use in Three-Dimensional National Convection Studies” (Pepper, D. W., and Copper, R. E., 1979, ASME J. Heat Transfer, 101, pp. 739–741)
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Topics: Algorithms , Convection , Copper , Heat transfer
Closure to “Discussion of ‘Strongly Implicit Algorithm for Use in Three-Dimensional National Convection Studies’” (1982, ASME J. Heat Transfer, 104, p. 218)
D. W. Pepper, R. E. Copper
J. Heat Transfer. February 1982, 104(1): 218–219. doi: https://doi.org/10.1115/1.3245061
View articletitled, Closure to “Discussion of ‘Strongly Implicit Algorithm for Use in Three-Dimensional National Convection Studies’” (1982, ASME J. Heat Transfer, 104, p. 218)
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Topics: Algorithms , Convection , Heat transfer

Errata

Erratum: “Heat Transfer in Two-Component Dispersed Flow” (Journal of Heat Transfer, 1981, 103, pp. 300–306)
K. Mastanaiah, E. N. Ganic
J. Heat Transfer. February 1982, 104(1): 219. doi: https://doi.org/10.1115/1.3245062
View articletitled, Erratum: “Heat Transfer in Two-Component Dispersed Flow” (Journal of Heat Transfer, 1981, 103, pp. 300–306)
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Topics: Flow (Dynamics) , Heat transfer
All Issues
On the Centennial of the Academic Careers (1919-2019) of Llewellyn M. K. Boelter and William H. McAdams: American Pioneers in Heat and Mass Transfer
J. Heat Mass Transfer
Effects of Hydraulic Parameters On the Retrieved Hydrothermal Dynamics of Unsaturated Soil Using a Synthetic Inverse Model
J. Heat Mass Transfer
Numerical Study on Heat Transfer and Pressure Loss Characteristics of Swirl Cooling in Elliptica Tubes with Tangential Jet Inlets
J. Heat Mass Transfer
Battery Thermal Management System On Trapezoidal Battery Pack With Liquid Cooling System Utilizing Phase Change Material
J. Heat Mass Transfer
Comparisons of Overall Performance among Double-jet Film Cooling Holes, Cylinder holes, and Fan-shaped holes
J. Heat Mass Transfer
  • Online ISSN 2832-8469
  • Print ISSN 2832-8450

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