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Volume 86, Issue 3
August 1964
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943
In this Issue

Research Papers

Friction and Heat-Transfer Measurements to Turbulent Pipe Flow of Water (Pr=7 and 8) at Uniform Wall Heat Flux
R. W. Allen, E. R. G. Eckert
J. Heat Transfer. August 1964, 86(3): 301–310. doi: https://doi.org/10.1115/1.3688680
View articletitled, Friction and Heat-Transfer Measurements to Turbulent Pipe Flow of Water (Pr=7 and 8) at Uniform Wall Heat Flux
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Topics: Friction , Heat flux , Heat transfer , Pipe flow , Turbulence , Water , Heating , Entrance region , Fluids , Fully developed turbulent flow
The Effect of Diffusion Thermo and Thermal Diffusion for Helium Injection Into Plane and Axisymmetric Stagnation Flow of Air
E. M. Sparrow, W. J. Minkowycz, E. R. G. Eckert, W. E. Ibele
J. Heat Transfer. August 1964, 86(3): 311–319. doi: https://doi.org/10.1115/1.3688681
View articletitled, The Effect of Diffusion Thermo and Thermal Diffusion for Helium Injection Into Plane and Axisymmetric Stagnation Flow of Air
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Topics: Diffusion (Physics) , Helium , Stagnation flow , Thermal diffusion , Heat transfer , Temperature , Aerospace industry , Boundary layers , Flow (Dynamics) , Fluids
A Rational Equation of State for Water and Water Vapor in the Critical Region
E. S. Nowak
J. Heat Transfer. August 1964, 86(3): 320–326. doi: https://doi.org/10.1115/1.3688683
View articletitled, A Rational Equation of State for Water and Water Vapor in the Critical Region
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Topics: Equations of state , Water , Water vapor , Pressure , Enthalpy , Entropy , Specific heat , Temperature , Uncertainty , Vapors
The Prediction of Low-Quality Boiling Voids
P. Griffith
J. Heat Transfer. August 1964, 86(3): 327–333. doi: https://doi.org/10.1115/1.3688684
View articletitled, The Prediction of Low-Quality Boiling Voids
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Topics: Annulus , Boiling , Bubbles , Density , Dimensions , Flow (Dynamics) , Shapes , Slug flows , Symmetry (Physics)
Heat, Mass, and Momentum Transfer Inside Frosted Tubes—Experiment and Theory
M. M. Chen, W. Rohsenow
J. Heat Transfer. August 1964, 86(3): 334–340. doi: https://doi.org/10.1115/1.3688686
View articletitled, Heat, Mass, and Momentum Transfer Inside Frosted Tubes—Experiment and Theory
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Topics: Heat , Momentum , Surface roughness , Heat exchangers , Heat transfer , Pipes , Pressure drop , Stability
Combined Radiation and Convection in an Asymmetrically Heated Parallel Plate Flow Channel
E. G. Keshock, R. Siegel
J. Heat Transfer. August 1964, 86(3): 341–350. doi: https://doi.org/10.1115/1.3688688
View articletitled, Combined Radiation and Convection in an Asymmetrically Heated Parallel Plate Flow Channel
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Topics: Convection , Flow (Dynamics) , Radiation (Physics) , Heat flux , Fluids , Fuels , Heat conduction , Nuclear fuels , Radiation effects , Temperature
Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity
H. Merte, Jr., J. A. Clark
J. Heat Transfer. August 1964, 86(3): 351–358. doi: https://doi.org/10.1115/1.3688689
View articletitled, Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity
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Topics: Boiling , Fluids , Gravity (Force) , Heat transfer , Film boiling , Transients (Dynamics) , Atmospheric pressure , Heat flux , Nitrogen , Nucleate boiling
An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient
B. E. Launder
J. Heat Transfer. August 1964, 86(3): 360–363. doi: https://doi.org/10.1115/1.3688694
View articletitled, An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient
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Topics: Boundary layers , Pressure gradient , Displacement , Polynomials
The Determination of Forced-Convection Surface-Boiling Heat Transfer
A. E. Bergles, W. M. Rohsenow
J. Heat Transfer. August 1964, 86(3): 365–372. doi: https://doi.org/10.1115/1.3688697
View articletitled, The Determination of Forced-Convection Surface-Boiling Heat Transfer
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Topics: Boiling , Forced convection , Heat transfer , Pool boiling , Subcooling
An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications
O. R. Burggraf
J. Heat Transfer. August 1964, 86(3): 373–380. doi: https://doi.org/10.1115/1.3688700
View articletitled, An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications
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Topics: Heat conduction , Inverse problems , Boundary-value problems , Approximation , Slabs , Capacitance , Cylinders , Transpiration
Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating
K. N. Astill
J. Heat Transfer. August 1964, 86(3): 383–391. doi: https://doi.org/10.1115/1.3688703
View articletitled, Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating
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Topics: Cylinders , Flow (Dynamics) , Vortices , Annulus , Heat transfer , Machinery , Reynolds number , Turbulence
Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus
K. M. Becker, G. Hernborg
J. Heat Transfer. August 1964, 86(3): 393–404. doi: https://doi.org/10.1115/1.3688706
View articletitled, Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus
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Topics: Annulus , Boiling , Flow (Dynamics) , Water , Heating , Heat flux , Steam , Ducts , Film flow , Flux (Metallurgy)
Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells
Luis Jaw
J. Heat Transfer. August 1964, 86(3): 408–415. doi: https://doi.org/10.1115/1.3688709
View articletitled, Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells
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Topics: Flow (Dynamics) , Shells , Temperature , Design , Fluids , Heat exchangers
A Visual Study of Two-Phase Flow While Evaporating in Horizontal Tubes
W. R. Zahn
J. Heat Transfer. August 1964, 86(3): 417–429. doi: https://doi.org/10.1115/1.3688713
View articletitled, A Visual Study of Two-Phase Flow While Evaporating in Horizontal Tubes
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Topics: Evaporation , Two-phase flow , Flow (Dynamics) , Air conditioning , Flow instability , Heat , Methane , Pressure , Stress , Temperature
Condensation Heat Transfer in the Presence of a Noncondensable Gas
E. M. Sparrow, S. H. Lin
J. Heat Transfer. August 1964, 86(3): 430–436. doi: https://doi.org/10.1115/1.3688714
View articletitled, Condensation Heat Transfer in the Presence of a Noncondensable Gas
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Topics: Condensation , Heat transfer , Vapors , Pressure , Steam , Temperature
Variational Analysis of Ablation for Variable Properties
M. A. Biot, H. C. Agrawal
J. Heat Transfer. August 1964, 86(3): 437–442. doi: https://doi.org/10.1115/1.3688715
View articletitled, Variational Analysis of Ablation for Variable Properties
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Topics: Ablation (Vaporization technology) , Ceramics , Electrical conductivity , Heat conduction , Melting , Phonons , Photons , Temperature , Temperature distribution , Thermal conductivity
On the Application of the Source Theory to the Solution of Problems Involving Phase Change: Part 2—Transient Interface Heat and Mass Transfer in Multicomponent Liquid-Vapor System
Wen-Jei Yang, J. A. Clark
J. Heat Transfer. August 1964, 86(3): 443–448. doi: https://doi.org/10.1115/1.3688716
View articletitled, On the Application of the Source Theory to the Solution of Problems Involving Phase Change: Part 2—Transient Interface Heat and Mass Transfer in Multicomponent Liquid-Vapor System
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Topics: Heat , Mass transfer , Transients (Dynamics) , Vapors , Nitrogen , Approximation , Helium , Oxygen
Flame-Contact Studies
A. M. Stoll, M. A. Chianta, L. R. Munroe
J. Heat Transfer. August 1964, 86(3): 449–456. doi: https://doi.org/10.1115/1.3688717
View articletitled, Flame-Contact Studies
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Topics: Flames , Flow (Dynamics) , Heat , Heat transfer , Mathematical analysis , Textiles , Thermal properties
Heat Transfer in Film Boiling With Pulsating Pressures
D. A. Di Cicco, R. J. Schoenhals
J. Heat Transfer. August 1964, 86(3): 457–460. doi: https://doi.org/10.1115/1.3688718
View articletitled, Heat Transfer in Film Boiling With Pulsating Pressures
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Topics: Film boiling , Heat transfer , Pressure , Atmospheric pressure , Wire , Boiling , Subcooling , Temperature , Fluids , Platinum

Discussions

Discussion: “Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity” (Merte, Jr., H., and Clark, J. A., 1964, ASME J. Heat Transfer, 86, pp. 351–358)
C. P. Costello
J. Heat Transfer. August 1964, 86(3): 358–359. doi: https://doi.org/10.1115/1.3688691
View articletitled, Discussion: “Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity” (Merte, Jr., H., and Clark, J. A., 1964, ASME J. Heat Transfer, 86, pp. 351–358)
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Topics: Boiling , Fluids , Gravity (Force) , Heat transfer
Closure to “Discussion of ‘Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity’” (1964, ASME J. Heat Transfer, 86, pp. 358–359)
H. Merte, Jr., J. A. Clark
J. Heat Transfer. August 1964, 86(3): 359. doi: https://doi.org/10.1115/1.3688693
View articletitled, Closure to “Discussion of ‘Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity’” (1964, ASME J. Heat Transfer, 86, pp. 358–359)
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Topics: Boiling , Fluids , Heat transfer
Discussion: “An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient” (Launder, B. E., 1964, ASME J. Heat Transfer, 86, pp. 360–363)
E. M. Sparrow
J. Heat Transfer. August 1964, 86(3): 363. doi: https://doi.org/10.1115/1.3688695
View articletitled, Discussion: “An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient” (Launder, B. E., 1964, ASME J. Heat Transfer, 86, pp. 360–363)
Open the PDF for in another window
Topics: Boundary layers , Heat transfer , Pressure gradient
Closure to “Discussion of ‘An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient’” (1964, ASME J. Heat Transfer, 86, p. 363)
B. E. Launder
J. Heat Transfer. August 1964, 86(3): 363–364. doi: https://doi.org/10.1115/1.3688696
View articletitled, Closure to “Discussion of ‘An Improved Pohlhausen-Type Method of Calculating the Two-Dimensional Laminar Boundary Layer in a Pressure Gradient’” (1964, ASME J. Heat Transfer, 86, p. 363)
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Topics: Boundary layers , Heat transfer , Pressure
Discussion: “The Determination of Forced-Convection Surface-Boiling Heat Transfer” (Bergles, A. E., and Rohsenow, W. M., 1964, ASME J. Heat Transfer, 86, pp. 365–372)
E. M. Sparrow
J. Heat Transfer. August 1964, 86(3): 372. doi: https://doi.org/10.1115/1.3688698
View articletitled, Discussion: “The Determination of Forced-Convection Surface-Boiling Heat Transfer” (Bergles, A. E., and Rohsenow, W. M., 1964, ASME J. Heat Transfer, 86, pp. 365–372)
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Topics: Boiling , Forced convection , Heat transfer
Closure to “Discussion of ‘The Determination of Forced-Convection Surface-Boiling Heat Transfer’” (1964, ASME J. Heat Transfer, 86, p. 372)
A. E. Bergles, W. M. Rohsenow
J. Heat Transfer. August 1964, 86(3): 372. doi: https://doi.org/10.1115/1.3688699
View articletitled, Closure to “Discussion of ‘The Determination of Forced-Convection Surface-Boiling Heat Transfer’” (1964, ASME J. Heat Transfer, 86, p. 372)
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Topics: Boiling , Forced convection , Heat , Heat transfer
Discussion: “An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications” (Burggraf, O. R., 1964, ASME J. Heat Transfer, 86, pp. 373–380)
J. V. Beck
J. Heat Transfer. August 1964, 86(3): 380–381. doi: https://doi.org/10.1115/1.3688701
View articletitled, Discussion: “An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications” (Burggraf, O. R., 1964, ASME J. Heat Transfer, 86, pp. 373–380)
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Topics: Heat conduction , Heat transfer , Inverse problems
Closure to “Discussion of ‘An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications’” (1964, ASME J. Heat Transfer, 86, pp. 380–381)
O. R. Burggraf
J. Heat Transfer. August 1964, 86(3): 381–382. doi: https://doi.org/10.1115/1.3688702
View articletitled, Closure to “Discussion of ‘An Exact Solution of the Inverse Problem in Heat Conduction Theory and Applications’” (1964, ASME J. Heat Transfer, 86, pp. 380–381)
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Topics: Heat conduction , Heat transfer , Inverse problems
Discussion: “Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating” (Astill, K. N., 1964, ASME J. Heat Transfer, 86, pp. 383–391)
Kurt M. Becker
J. Heat Transfer. August 1964, 86(3): 391. doi: https://doi.org/10.1115/1.3688704
View articletitled, Discussion: “Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating” (Astill, K. N., 1964, ASME J. Heat Transfer, 86, pp. 383–391)
Open the PDF for in another window
Topics: Cylinders , Flow (Dynamics) , Heat transfer
Closure to “Discussion of ‘Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating’” (1964, ASME J. Heat Transfer, 86, p. 391)
K. N. Astill
J. Heat Transfer. August 1964, 86(3): 391–392. doi: https://doi.org/10.1115/1.3688705
View articletitled, Closure to “Discussion of ‘Studies of the Developing Flow Between Concentric Cylinders With the Inner Cylinder Rotating’” (1964, ASME J. Heat Transfer, 86, p. 391)
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Topics: Cylinders , Flow (Dynamics) , Heat transfer
Discussion: “Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus” (Becker, K. M., and Hernborg, G., 1964, ASME J. Heat Transfer, 86, pp. 393–404)
M. Petrick
J. Heat Transfer. August 1964, 86(3): 404. doi: https://doi.org/10.1115/1.3688707
View articletitled, Discussion: “Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus” (Becker, K. M., and Hernborg, G., 1964, ASME J. Heat Transfer, 86, pp. 393–404)
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Topics: Annulus , Boiling , Flow (Dynamics) , Heat transfer , Water
Closure to “Discussion of ‘Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus’” (1964, ASME J. Heat Transfer, 86, p. 404)
K. M. Becker, G. Hernborg
J. Heat Transfer. August 1964, 86(3): 404–407. doi: https://doi.org/10.1115/1.3688708
View articletitled, Closure to “Discussion of ‘Measurements of Burnout Conditions for Flow of Boiling Water in a Vertical Annulus’” (1964, ASME J. Heat Transfer, 86, p. 404)
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Water
Discussion: “Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells” (Jaw, Luis, 1964, ASME J. Heat Transfer, 86, pp. 408–415)
R. J. Moffat
J. Heat Transfer. August 1964, 86(3): 415–416. doi: https://doi.org/10.1115/1.3688710
View articletitled, Discussion: “Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells” (Jaw, Luis, 1964, ASME J. Heat Transfer, 86, pp. 408–415)
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Topics: Flow (Dynamics) , Heat transfer , Shells , Temperature
Discussion: “Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells” (Jaw, Luis, 1964, ASME J. Heat Transfer, 86, pp. 408–415)
F. L. Rubin
J. Heat Transfer. August 1964, 86(3): 416. doi: https://doi.org/10.1115/1.3688711
View articletitled, Discussion: “Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells” (Jaw, Luis, 1964, ASME J. Heat Transfer, 86, pp. 408–415)
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Topics: Flow (Dynamics) , Heat transfer , Shells , Temperature
Closure to “Discussions of ‘Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells’” (1964, ASME J. Heat Transfer, 86, pp. 415–416)
Luis Jaw
J. Heat Transfer. August 1964, 86(3): 416. doi: https://doi.org/10.1115/1.3688712
View articletitled, Closure to “Discussions of ‘Temperature Relations in Shell and Tube Exchangers Having One-Pass Split-Flow Shells’” (1964, ASME J. Heat Transfer, 86, pp. 415–416)
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Topics: Flow (Dynamics) , Heat transfer , Shells , Temperature
Discussion: “Heat Transfer in Film Boiling With Pulsating Pressures” (Di Cicco, D. A., and Schoenhals, R. J., 1964, ASME J. Heat Transfer, 86, pp. 457–460)
J. D. Parker
J. Heat Transfer. August 1964, 86(3): 460. doi: https://doi.org/10.1115/1.3688719
View articletitled, Discussion: “Heat Transfer in Film Boiling With Pulsating Pressures” (Di Cicco, D. A., and Schoenhals, R. J., 1964, ASME J. Heat Transfer, 86, pp. 457–460)
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Topics: Film boiling , Heat transfer
Closure to “Discussion of ‘Heat Transfer in Film Boiling With Pulsating Pressures’” (1964, ASME J. Heat Transfer, 86, p. 460)
D. A. Di Cicco, R. J. Schoenhals
J. Heat Transfer. August 1964, 86(3): 460–461. doi: https://doi.org/10.1115/1.3688720
View articletitled, Closure to “Discussion of ‘Heat Transfer in Film Boiling With Pulsating Pressures’” (1964, ASME J. Heat Transfer, 86, p. 460)
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Topics: Film boiling , Heat transfer

Technical Briefs

Design, Calibration, and Application of a Miniature Total Temperature Probe
W. S. Bradfield, A. R. Hanson, J. J. Sheppard, Jr.
J. Heat Transfer. August 1964, 86(3): 462–464. doi: https://doi.org/10.1115/1.3688721
View articletitled, Design, Calibration, and Application of a Miniature Total Temperature Probe
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Topics: Calibration , Design , Probes , Temperature
A Two-Wavelength Interferometer for the Study of Heat and Mass Transfer
M. M. El-Wakil, C. L. Jaeck
J. Heat Transfer. August 1964, 86(3): 464–466. doi: https://doi.org/10.1115/1.3688722
View articletitled, A Two-Wavelength Interferometer for the Study of Heat and Mass Transfer
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Topics: Heat , Interferometers , Mass transfer , Wavelength
Approximate Method for the Study of Heat Conduction in Bars of Arbitrary Cross Section
Patricio A. Laura, Michael Chi
J. Heat Transfer. August 1964, 86(3): 466–467. doi: https://doi.org/10.1115/1.3688723
View articletitled, Approximate Method for the Study of Heat Conduction in Bars of Arbitrary Cross Section
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Topics: Heat conduction , Temperature distribution
Heat Transfer From a Rotating Disk With a Stepwise Discontinuous Surface Temperature
N. M. Schnurr
J. Heat Transfer. August 1964, 86(3): 467–468. doi: https://doi.org/10.1115/1.3688724
View articletitled, Heat Transfer From a Rotating Disk With a Stepwise Discontinuous Surface Temperature
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Topics: Heat transfer , Rotating disks , Temperature
All Issues
Enhancing Melting of Phase Change Material in Double Tube Latent Heat Storage System by Pin Fins
J. Heat Mass Transfer
Thermal Anisotropy and Heat Flux Deviation Degree of Composites
J. Heat Mass Transfer
A numerical study of gold-nanorod-enhanced non-invasive laser ablation for central lung cancer using an optical-thermal-fluid model
J. Heat Mass Transfer
Reviewer's Recognition
J. Heat Mass Transfer (April 2025)
Local Cooling Enhancement in Incremental Impingement Pin-Fin Configurations: Role of Jet-Diameter and Impingement Configurations
J. Heat Mass Transfer
  • Online ISSN 2832-8469
  • Print ISSN 2832-8450

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