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Issues

Volume 98, Issue 2
May 1976
This article was originally published in
Journal of Heat Transfer
Journal of Heat Transfer Cover Image for Volume 98, Issue 2
ISSN 0022-1481
EISSN 1528-8943
In this Issue

Research Papers

An Analysis of Critical Heat Flux in Flow Reversal Transients
R. A. Smith, F. A. Price, P. Griffith
J. Heat Transfer. May 1976, 98(2): 153–158. doi: https://doi.org/10.1115/1.3450511
View articletitled, An Analysis of Critical Heat Flux in Flow Reversal Transients
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Topics: Critical heat flux , Flow (Dynamics) , Transients (Dynamics) , Coolants , Pressurized water reactors , Vapors , Accidents , Cooling , Heat transfer , Pressure
Local Film Thickness During Transient Voiding of a Liquid-Filled Channel
M. R. O¨zgu¨, J. C. Chen
J. Heat Transfer. May 1976, 98(2): 159–165. doi: https://doi.org/10.1115/1.3450512
View articletitled, Local Film Thickness During Transient Voiding of a Liquid-Filled Channel
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Topics: Film thickness , Transients (Dynamics) , Liquid films , Safety , Thermal analysis
Influence of Pressure on Film Boiling Heat Transfer
G. Hesse, E. M. Sparrow, R. J. Goldstein
J. Heat Transfer. May 1976, 98(2): 166–172. doi: https://doi.org/10.1115/1.3450513
View articletitled, Influence of Pressure on Film Boiling Heat Transfer
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Topics: Film boiling , Heat transfer , Pressure , Vapors , Heat transfer coefficients , Heat flux , Heating , Wire , Boiling , Bubbles
Film Boiling in a Scaling Liquid
L. C. Farrar, E. Marschall
J. Heat Transfer. May 1976, 98(2): 173–177. doi: https://doi.org/10.1115/1.3450514
View articletitled, Film Boiling in a Scaling Liquid
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Topics: Film boiling , Heating , Evaporation , Flux (Metallurgy) , Heat , Heat transfer , Incrustations , Water
Evaporation From a Capillary Tube
G. Preiss, P. C. Wayner, Jr.
J. Heat Transfer. May 1976, 98(2): 178–181. doi: https://doi.org/10.1115/1.3450515
View articletitled, Evaporation From a Capillary Tube
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Topics: Evaporation , Ethanol , Glass , Heat transfer , Hydrostatics
Natural Convection in Enclosed Spaces—A Review of Application to Solar Energy Collection
H. Buchberg, I. Catton, D. K. Edwards
J. Heat Transfer. May 1976, 98(2): 182–188. doi: https://doi.org/10.1115/1.3450516
View articletitled, Natural Convection in Enclosed Spaces—A Review of Application to Solar Energy Collection
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Topics: Natural convection , Solar energy , Space , Rayleigh number , Electrical conductance , Glass , Heat losses , Solar collectors
Free Convective Heat Transfer Across Inclined Air Layers
K. G. T. Hollands, T. E. Unny, G. D. Raithby, L. Konicek
J. Heat Transfer. May 1976, 98(2): 189–193. doi: https://doi.org/10.1115/1.3450517
View articletitled, Free Convective Heat Transfer Across Inclined Air Layers
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Topics: Convection , Rayleigh number
The Effect of Heater Size, Location, Aspect Ratio, and Boundary Conditions on Two-Dimensional, Laminar, Natural Convection in Rectangular Channels
H. H.-S. Chu, S. W. Churchill, C. V. S. Patterson
J. Heat Transfer. May 1976, 98(2): 194–201. doi: https://doi.org/10.1115/1.3450518
View articletitled, The Effect of Heater Size, Location, Aspect Ratio, and Boundary Conditions on Two-Dimensional, Laminar, Natural Convection in Rectangular Channels
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Topics: Boundary-value problems , Computation , Coolers , Flow visualization , Heat transfer , Heating , Momentum , Natural convection , Partial differential equations , Strips
Three-Dimensional, Numerical Analysis of Laminar Natural Convection in a Confined Fluid Heated From Below
H. Ozoe, K. Yamamoto, S. W. Churchill, H. Sayama
J. Heat Transfer. May 1976, 98(2): 202–207. doi: https://doi.org/10.1115/1.3450519
View articletitled, Three-Dimensional, Numerical Analysis of Laminar Natural Convection in a Confined Fluid Heated From Below
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Topics: Fluids , Natural convection , Numerical analysis , Algorithms , Flat plates , Heating , Particulate matter , Plates (structures) , Three-dimensional models
Laminar Natural Convection About Downward Facing Heated Blunt Bodies to Liquid Metals
G. M. Harpole, I. Catton
J. Heat Transfer. May 1976, 98(2): 208–212. doi: https://doi.org/10.1115/1.3450520
View articletitled, Laminar Natural Convection About Downward Facing Heated Blunt Bodies to Liquid Metals
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Topics: Liquid metals , Natural convection , Heat flux , Shapes , Boundary layers , Cylinders , Differential equations , Finite difference methods , Temperature , Temperature effects
Physical Modeling of Combined Forced and Natural Convection in Wet Geothermal Formations
V. E. Schrock, A. D. K. Laird
J. Heat Transfer. May 1976, 98(2): 213–220. doi: https://doi.org/10.1115/1.3450521
View articletitled, Physical Modeling of Combined Forced and Natural Convection in Wet Geothermal Formations
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Topics: Geothermal engineering , Modeling , Natural convection , Reservoirs , Water , Wells , Energy generation , Energy resources , Flow (Dynamics) , Geothermal power
Transient Temperature Distributions Within Porous Slabs Subjected to Sudden Transpiration Heating
D. M. Burch, R. W. Allen, B. A. Peavy
J. Heat Transfer. May 1976, 98(2): 221–225. doi: https://doi.org/10.1115/1.3450522
View articletitled, Transient Temperature Distributions Within Porous Slabs Subjected to Sudden Transpiration Heating
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Topics: Heating , Slabs , Temperature distribution , Transients (Dynamics) , Transpiration , Fluids , Temperature , Boundary-value problems , Convection , Forced convection
Heat Transfer in Laminar Flow Past a Rectangular Cavity With Fluid Injection
R. W. Johnson, A. M. Dhanak
J. Heat Transfer. May 1976, 98(2): 226–231. doi: https://doi.org/10.1115/1.3450523
View articletitled, Heat Transfer in Laminar Flow Past a Rectangular Cavity With Fluid Injection
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Topics: Cavities , Fluids , Heat transfer , Laminar flow , Air flow , Cavity walls , Reynolds number
Characteristics of Hollow Glass Microspheres as an Insulating Material and an Opacifier
E. M. Sparrow, N. Cur
J. Heat Transfer. May 1976, 98(2): 232–239. doi: https://doi.org/10.1115/1.3450524
View articletitled, Characteristics of Hollow Glass Microspheres as an Insulating Material and an Opacifier
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Topics: Glass , Insulation , Thermal conductivity , Heat transfer , Radiative heat transfer , Temperature , Coating processes , Coatings , Density , High temperature
Adiabatic Wall Effectiveness of a Turbulent Boundary Layer With Slot Injection
R. E. Mayle, F. C. Kopper
J. Heat Transfer. May 1976, 98(2): 240–244. doi: https://doi.org/10.1115/1.3450525
View articletitled, Adiabatic Wall Effectiveness of a Turbulent Boundary Layer With Slot Injection
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Topics: Boundary layer turbulence , Boundary layers , Flow (Dynamics) , Fluids , Thermal boundary layers
Streakline Flow Visualization of Discrete Hole Film Cooling for Gas Turbine Applications
R. S. Colladay, L. M. Russell
J. Heat Transfer. May 1976, 98(2): 245–250. doi: https://doi.org/10.1115/1.3450526
View articletitled, Streakline Flow Visualization of Discrete Hole Film Cooling for Gas Turbine Applications
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Topics: Film cooling , Flow visualization , Gas turbines , Boundary layers , Bubbles , Turbulence , Flow (Dynamics) , Helium , Reynolds number , Smoke
Augmentation of Laminar Flow Heat Transfer in Tubes by Means of Twisted-Tape Inserts
S. W. Hong, A. E. Bergles
J. Heat Transfer. May 1976, 98(2): 251–256. doi: https://doi.org/10.1115/1.3450527
View articletitled, Augmentation of Laminar Flow Heat Transfer in Tubes by Means of Twisted-Tape Inserts
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Topics: Heat transfer , Laminar flow , Reynolds number , Flow (Dynamics) , Friction , Heat transfer coefficients , Heating , Metals , Prandtl number , Water
Heat Transfer in Internally Finned Tubes
J. H. Masliyah, K. Nandakumar
J. Heat Transfer. May 1976, 98(2): 257–261. doi: https://doi.org/10.1115/1.3450528
View articletitled, Heat Transfer in Internally Finned Tubes
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Topics: Heat transfer , Finite element methods , Fins , Flow (Dynamics) , Forced convection , Geometry , Heat flux , Shapes , Temperature
Experimental and Analytical Study of Axial Turbulent Flows in an Interior Subchannel of a Bare Rod Bundle
P. Carajilescov, N. E. Todreas
J. Heat Transfer. May 1976, 98(2): 262–268. doi: https://doi.org/10.1115/1.3450529
View articletitled, Experimental and Analytical Study of Axial Turbulent Flows in an Interior Subchannel of a Bare Rod Bundle
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Topics: Fuel rods , Turbulence , Rods , Coolants , Design , Electromagnetic scattering , Flow (Dynamics) , Fluids , Fully developed turbulent flow , Heat transfer
An Asymptotic, Thermo-Diffusive Ignition Theory of Porous Solid Fuels
Choong Se Kim, Paul M. Chung
J. Heat Transfer. May 1976, 98(2): 269–275. doi: https://doi.org/10.1115/1.3450530
View articletitled, An Asymptotic, Thermo-Diffusive Ignition Theory of Porous Solid Fuels
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Topics: Fuels , Ignition , Chemical reactions , Coal , Differential equations , Diffusion (Physics) , Partial differential equations , Temperature , Theorems (Mathematics)
The Calculation of Furnace-Flow Properties and Their Experimental Verification
P. Hutchinson, E. E. Khalil, J. H. Whitelaw, G. Wigley
J. Heat Transfer. May 1976, 98(2): 276–283. doi: https://doi.org/10.1115/1.3450531
View articletitled, The Calculation of Furnace-Flow Properties and Their Experimental Verification
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Topics: Flow (Dynamics) , Furnaces , Combustion , Design , Fuels , Heat flux , Natural gas , Oxygen , Stress , Temperature
The Numerical Thermal Simulation of the Human Body When Undergoing Exercise or Nonionizing Electromagnetic Irradiation
A. F. Emery, R. E. Short, A. W. Guy, K. K. Kraning, J. C. Lin
J. Heat Transfer. May 1976, 98(2): 284–291. doi: https://doi.org/10.1115/1.3450532
View articletitled, The Numerical Thermal Simulation of the Human Body When Undergoing Exercise or Nonionizing Electromagnetic Irradiation
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Topics: Irradiation (Radiation exposure) , Simulation , Temperature , Skin , Computer software , Heat losses , Microwaves , Muscle , Transients (Dynamics)
An Experimental Investigation of Burn Injury in Living Tissue
D. C. Ross, K. R. Diller
J. Heat Transfer. May 1976, 98(2): 292–296. doi: https://doi.org/10.1115/1.3450533
View articletitled, An Experimental Investigation of Burn Injury in Living Tissue
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Topics: Biological tissues , Wounds , Temperature , Combustion , Control systems , Cooling , Damage , Low temperature
Mean Diameters in Parallel-Flow and Counter-Flow Aerosol Systems
K. G. T. Hollands, K. C. Goel
J. Heat Transfer. May 1976, 98(2): 297–302. doi: https://doi.org/10.1115/1.3450534
View articletitled, Mean Diameters in Parallel-Flow and Counter-Flow Aerosol Systems
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Topics: Aerosols , Flow (Dynamics) , Heat , Heat exchangers , Mass transfer , Particle size , Probability
A Numerical Study of Unsteady Laminar Forced Convection From a Circular Cylinder
P. C. Jain, B. S. Goel
J. Heat Transfer. May 1976, 98(2): 303–307. doi: https://doi.org/10.1115/1.3450537
View articletitled, A Numerical Study of Unsteady Laminar Forced Convection From a Circular Cylinder
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Topics: Circular cylinders , Forced convection , Cylinders , Computation , Finite difference methods , Flow (Dynamics) , Incompressible fluids , Navier-Stokes equations , Reynolds number , Temperature

Errata

Erratum: “Turbulent Transport to a Rotating Cylinder for Large Prandtl or Schmidt Numbers” (Journal of Heat Transfer, 1975, 97, pp. 594–597)
R. N. Smith, R. Greif
J. Heat Transfer. May 1976, 98(2): 302. doi: https://doi.org/10.1115/1.3450535
View articletitled, Erratum: “Turbulent Transport to a Rotating Cylinder for Large Prandtl or Schmidt Numbers” (Journal of Heat Transfer, 1975, 97, pp. 594–597)
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Topics: Cylinders , Heat transfer , Turbulence
Erratum: “Onset of Convection in a Porous Medium With Internal Heat Generation” (Journal of Heat Transfer, 1976, 98, pp. 49–54)
R. D. Gasser, M. S. Kazimi
J. Heat Transfer. May 1976, 98(2): 302. doi: https://doi.org/10.1115/1.3450536
View articletitled, Erratum: “Onset of Convection in a Porous Medium With Internal Heat Generation” (Journal of Heat Transfer, 1976, 98, pp. 49–54)
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Topics: Convection , Heat , Heat transfer , Porous materials
Addendum: “Laminar Free Convection Over Two-Dimensional and Axisymmetric Bodies of Arbitrary Contour” (Journal of Heat Transfer, 1974, 96, pp. 435–442)
F. N. Lin, B. T. Chao
J. Heat Transfer. May 1976, 98(2): 344. doi: https://doi.org/10.1115/1.3450558
View articletitled, Addendum: “Laminar Free Convection Over Two-Dimensional and Axisymmetric Bodies of Arbitrary Contour” (Journal of Heat Transfer, 1974, 96, pp. 435–442)
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Topics: Heat transfer , Natural convection

Technical Briefs

Mean Beam Lengths for Spheres and Cylinders
A. T. Wassel, D. K. Edwards
J. Heat Transfer. May 1976, 98(2): 308–309. doi: https://doi.org/10.1115/1.3450538
View articletitled, Mean Beam Lengths for Spheres and Cylinders
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Topics: Cylinders
Radiation Heat Transfer Through Molecular Gases at Large Optical Depth
D. A. Nelson
J. Heat Transfer. May 1976, 98(2): 310–311. doi: https://doi.org/10.1115/1.3450539
View articletitled, Radiation Heat Transfer Through Molecular Gases at Large Optical Depth
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Topics: Gases , Heat transfer , Radiation (Physics)
Determination of Configuration Factors of Irregular Shape
R. Farrell
J. Heat Transfer. May 1976, 98(2): 311–313. doi: https://doi.org/10.1115/1.3450540
View articletitled, Determination of Configuration Factors of Irregular Shape
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Topics: Shapes
Unsteady and Two-Dimensional Flow of a Condensate Film
S. D. R. Wilson
J. Heat Transfer. May 1976, 98(2): 313–315. doi: https://doi.org/10.1115/1.3450541
View articletitled, Unsteady and Two-Dimensional Flow of a Condensate Film
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Topics: Condensed matter , Flow (Dynamics)
Evaporation and Heating With Turbulent Falling Liquid Films
R. A. Seban, A. Faghri
J. Heat Transfer. May 1976, 98(2): 315–318. doi: https://doi.org/10.1115/1.3450542
View articletitled, Evaporation and Heating With Turbulent Falling Liquid Films
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Topics: Evaporation , Heating , Liquid films , Turbulence
Heat Transfer Across a Turbulent Falling Film With Cocurrent Vapor Flow
G. L. Hubbard, A. F. Mills, D. K. Chung
J. Heat Transfer. May 1976, 98(2): 319–320. doi: https://doi.org/10.1115/1.3450543
View articletitled, Heat Transfer Across a Turbulent Falling Film With Cocurrent Vapor Flow
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Topics: Flow (Dynamics) , Heat transfer , Turbulence , Vapors
Locally Nonsimilar Solution for Laminar Free Convection Adjacent to a Vertical Wall
Tsai-tse Kao
J. Heat Transfer. May 1976, 98(2): 321–322. doi: https://doi.org/10.1115/1.3450544
View articletitled, Locally Nonsimilar Solution for Laminar Free Convection Adjacent to a Vertical Wall
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Topics: Natural convection
Combined Free and Forced Convection in Inclined Circular Tubes
J. A. Sabbagh, A. Aziz, A. S. El-Ariny, G. Hamad
J. Heat Transfer. May 1976, 98(2): 322–324. doi: https://doi.org/10.1115/1.3450545
View articletitled, Combined Free and Forced Convection in Inclined Circular Tubes
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Topics: Mixed convection , Temperature , Heat flux , Reynolds number
Transient Response of Straight Fins: Part II
N. V. Suryanarayana
J. Heat Transfer. May 1976, 98(2): 324–326. doi: https://doi.org/10.1115/1.3450546
View articletitled, Transient Response of Straight Fins: Part II
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Topics: Fins , Transients (Dynamics)
Thermal Analysis of a Fast-Moving Slab in Two Adjacent Temperature Chambers
L. S. Yao, C. L. Tien, S. A. Berger
J. Heat Transfer. May 1976, 98(2): 326–329. doi: https://doi.org/10.1115/1.3450547
View articletitled, Thermal Analysis of a Fast-Moving Slab in Two Adjacent Temperature Chambers
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Topics: Slabs , Temperature , Thermal analysis
Transient Temperature Rise in Layered Media
H. Domingos, D. Voelker
J. Heat Transfer. May 1976, 98(2): 329–330. doi: https://doi.org/10.1115/1.3450548
View articletitled, Transient Temperature Rise in Layered Media
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Topics: Temperature , Transients (Dynamics) , Heat , Laplace transforms , Resistors , Temperature distribution , Thin films
Thermal Contact Conductance of Lead Ferrite and Boron Nitride
L. S. Fletcher, W. R. Ott
J. Heat Transfer. May 1976, 98(2): 331–332. doi: https://doi.org/10.1115/1.3450549
View articletitled, Thermal Contact Conductance of Lead Ferrite and Boron Nitride
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Topics: Boron , Contact resistance , Ferrites (Magnetic materials)
A Correction to Noncircular Duct Hot Patch Data
C. C. Maneri, R. E. Schneider
J. Heat Transfer. May 1976, 98(2): 332–334. doi: https://doi.org/10.1115/1.3450550
View articletitled, A Correction to Noncircular Duct Hot Patch Data
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Topics: Ducts , Errors
A Theoretical Study of Thermally Developing Fully Turbulent Boundary Layer Flow
L. C. Thomas
J. Heat Transfer. May 1976, 98(2): 334–336. doi: https://doi.org/10.1115/1.3450551
View articletitled, A Theoretical Study of Thermally Developing Fully Turbulent Boundary Layer Flow
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Topics: Boundary layer turbulence , Flow (Dynamics)
Packed Bed Thermal Storage Models for Solar Air Heating and Cooling Systems
P. J. Hughes, S. A. Klein, D. J. Close
J. Heat Transfer. May 1976, 98(2): 336–338. doi: https://doi.org/10.1115/1.3450552
View articletitled, Packed Bed Thermal Storage Models for Solar Air Heating and Cooling Systems
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Topics: Heating and cooling , Solar energy , Thermal energy storage

Discussions

Discussion: “Heat and Mass Transfer From Freely Falling Drops” (Yao, S. C., and Schrock, V. E., 1976, ASME J. Heat Transfer, 98, pp. 120–126)
R. Porter
J. Heat Transfer. May 1976, 98(2): 339. doi: https://doi.org/10.1115/1.3450553
View articletitled, Discussion: “Heat and Mass Transfer From Freely Falling Drops” (Yao, S. C., and Schrock, V. E., 1976, ASME J. Heat Transfer, 98, pp. 120–126)
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Topics: Heat , Heat transfer , Mass transfer
Discussion: “Heat and Mass Transfer From Freely Falling Drops” (Yao, S. C., and Schrock, V. E., 1976, ASME J. Heat Transfer, 98, pp. 120–126)
W. E. Dunn
J. Heat Transfer. May 1976, 98(2): 339–340. doi: https://doi.org/10.1115/1.3450554
View articletitled, Discussion: “Heat and Mass Transfer From Freely Falling Drops” (Yao, S. C., and Schrock, V. E., 1976, ASME J. Heat Transfer, 98, pp. 120–126)
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Topics: Heat , Heat transfer , Mass transfer
Closure to “Discussions of ‘Heat and Mass Transfer From Freely Falling Drops’” (1976, ASME J. Heat Transfer, 98, pp. 339–340)
S. C. Yao, V. E. Schrock
J. Heat Transfer. May 1976, 98(2): 340. doi: https://doi.org/10.1115/1.3450555
View articletitled, Closure to “Discussions of ‘Heat and Mass Transfer From Freely Falling Drops’” (1976, ASME J. Heat Transfer, 98, pp. 339–340)
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Topics: Heat , Heat transfer , Mass transfer
Discussion: “Nucleation Site Activation in Saturated Boiling” (Shoukri, M., and Judd, R. L., 1975, ASME J. Heat Transfer, 97, pp. 93–98)
J. J. Lorenz, B. B. Mikic, W. M. Rohsenow
J. Heat Transfer. May 1976, 98(2): 340–341. doi: https://doi.org/10.1115/1.3450556
View articletitled, Discussion: “Nucleation Site Activation in Saturated Boiling” (Shoukri, M., and Judd, R. L., 1975, ASME J. Heat Transfer, 97, pp. 93–98)
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Topics: Boiling , Heat transfer , Nucleation (Physics)
Closure to “Discussion of ‘Nucleation Site Activation in Saturated Boiling’” (1976, ASME J. Heat Transfer, 98, pp. 340–341)
M. Shoukri, R. L. Judd
J. Heat Transfer. May 1976, 98(2): 341. doi: https://doi.org/10.1115/1.3450557
View articletitled, Closure to “Discussion of ‘Nucleation Site Activation in Saturated Boiling’” (1976, ASME J. Heat Transfer, 98, pp. 340–341)
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Topics: Heat transfer , Nucleation (Physics)
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