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Volume 121, Issue 1
February 1999
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Editorial

Editorial
John R. Howell
J. Heat Transfer. February 1999, 121(1): 1. doi: https://doi.org/10.1115/1.2825943
View articletitled, Editorial
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Research Papers

Analytical and Experimental Techniques
Two Constructal Routes to Minimal Heat Flow Resistance via Greater Internal Complexity
A. Bejan, N. Dan
J. Heat Transfer. February 1999, 121(1): 6–14. doi: https://doi.org/10.1115/1.2825968
View articletitled, Two Constructal Routes to Minimal Heat Flow Resistance via Greater Internal Complexity
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Topics: Flow (Dynamics) , Geometry , Heat , Optimization , Design , Design methodology , Electrical conductivity , Thermal conductivity , Approximation , Composite materials
Properties and Property Measurements
Accounting for Penetration of Laser Heating in Flash Thermal Diffusivity Experiments
R. L. McMasters, J. V. Beck, R. B. Dinwiddie, H. Wang
J. Heat Transfer. February 1999, 121(1): 15–21. doi: https://doi.org/10.1115/1.2825929
View articletitled, Accounting for Penetration of Laser Heating in Flash Thermal Diffusivity Experiments
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Topics: Accounting , Heat transfer , Heating , Lasers , Thermal diffusivity , Absorption , Carbon , Carbon fibers , Heat conduction , Insulation
Forced Convection
The Effect of Periodic Unsteady Flow on Aerodynamics and Heat Transfer on a Curved Surface
L. Wright, M. T. Schobeiri
J. Heat Transfer. February 1999, 121(1): 22–33. doi: https://doi.org/10.1115/1.2825954
View articletitled, The Effect of Periodic Unsteady Flow on Aerodynamics and Heat Transfer on a Curved Surface
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Topics: Aerodynamics , Heat transfer , Unsteady flow , Wakes
Experimental and Numerical Investigation of Forced Convective Characteristics of Arrays of Channel Mounted Obstacles
T. J. Young, K. Vafai
J. Heat Transfer. February 1999, 121(1): 34–42. doi: https://doi.org/10.1115/1.2825962
View articletitled, Experimental and Numerical Investigation of Forced Convective Characteristics of Arrays of Channel Mounted Obstacles
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Topics: Air flow , Computer simulation , Convection , Cooling , Electronic components , Electronics , Failure , Flow (Dynamics) , Flux (Metallurgy) , Heat
Jets, Wakes, and Impingement
Predictions of Turbulent Heat Transfer in an Axisymmetric Jet Impinging on a Heated Pedestal
S. Parneix, M. Behnia, P. A. Durbin
J. Heat Transfer. February 1999, 121(1): 43–49. doi: https://doi.org/10.1115/1.2825964
View articletitled, Predictions of Turbulent Heat Transfer in an Axisymmetric Jet Impinging on a Heated Pedestal
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Topics: Computers , Cooling , Electronic components , Engineering systems and industry applications , Flat plates , Geometry , Heat transfer coefficients , Heating , Jets , Modeling
Three-Dimensional Simulation of Laminar Rectangular Impinging Jets, Flow Structure, and Heat Transfer
I. Sezai, A. A. Mohamad
J. Heat Transfer. February 1999, 121(1): 50–56. doi: https://doi.org/10.1115/1.2825965
View articletitled, Three-Dimensional Simulation of Laminar Rectangular Impinging Jets, Flow Structure, and Heat Transfer
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Topics: Flow (Dynamics) , Heat transfer , Jets , Simulation
Natural and Mixed Convection
The Effects of Property Variations on Natural Convection in a Square Enclosure
A. F. Emery, J. W. Lee
J. Heat Transfer. February 1999, 121(1): 57–62. doi: https://doi.org/10.1115/1.2825966
View articletitled, The Effects of Property Variations on Natural Convection in a Square Enclosure
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Topics: Natural convection , Temperature , Electrical conductivity , Heat flux , Heat transfer , Instrumentation , Thermal conductivity , Viscosity
Developing Free Convection in Open-Ended Vertical Eccentric Annuli With Isothermal Boundaries
M. A. I. El-Shaarawi, E. M. A. Mokheimer
J. Heat Transfer. February 1999, 121(1): 63–72. doi: https://doi.org/10.1115/1.2825967
View articletitled, Developing Free Convection in Open-Ended Vertical Eccentric Annuli With Isothermal Boundaries
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Topics: Annulus , Natural convection
Boiling and Condensation
The Influence of Vapor Bubble Sliding on Forced Convection Boiling Heat Transfer
G. E. Thorncroft, J. F. Klausner
J. Heat Transfer. February 1999, 121(1): 73–79. doi: https://doi.org/10.1115/1.2825969
View articletitled, The Influence of Vapor Bubble Sliding on Forced Convection Boiling Heat Transfer
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Topics: Boiling , Bubbles , Forced convection , Heat transfer , Vapors
Effects of Surface Orientation on the Pool Boiling Heat Transfer in Water/2-Propanol Mixtures
S. Ahmed, V. P. Carey
J. Heat Transfer. February 1999, 121(1): 80–88. doi: https://doi.org/10.1115/1.2825972
View articletitled, Effects of Surface Orientation on the Pool Boiling Heat Transfer in Water/2-Propanol Mixtures
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Topics: Boiling , Heat transfer , Pool boiling , Water , Critical heat flux , Gravity (Force) , Surface tension , Temperature , Nucleate boiling , Flow (Dynamics)
Phase Change and Multiphase Heat Transfer
Evaporation of Ammonia in a Smooth Horizontal Tube: Heat Transfer Measurements and Predictions
O. Zu¨rcher, J. R. Thome, D. Favrat
J. Heat Transfer. February 1999, 121(1): 89–101. doi: https://doi.org/10.1115/1.2825974
View articletitled, Evaporation of Ammonia in a Smooth Horizontal Tube: Heat Transfer Measurements and Predictions
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Topics: Evaporation , Heat transfer , Flow (Dynamics) , Boiling , Flux (Metallurgy) , Heat , Heat transfer coefficients , Modeling , Stainless steel , Temperature
Heat Pipes
Flat Miniature Heat Pipes With Micro Capillary Grooves
R. Hopkins, A. Faghri, D. Khrustalev
J. Heat Transfer. February 1999, 121(1): 102–109. doi: https://doi.org/10.1115/1.2825922
View articletitled, Flat Miniature Heat Pipes With Micro Capillary Grooves
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Topics: Heat pipes
Heat Exchangers
Experimental Study of Turbulent Flow Heat Transfer and Pressure Drop in a Plate Heat Exchanger With Chevron Plates
A. Muley, R. M. Manglik
J. Heat Transfer. February 1999, 121(1): 110–117. doi: https://doi.org/10.1115/1.2825923
View articletitled, Experimental Study of Turbulent Flow Heat Transfer and Pressure Drop in a Plate Heat Exchanger With Chevron Plates
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Topics: Heat exchangers , Heat transfer , Plates (structures) , Pressure drop , Turbulence
Evaporation Heat Transfer and Pressure Drop of Refrigerant R-134a in a Plate Heat Exchanger
Y.-Y. Yan, T.-F. Lin
J. Heat Transfer. February 1999, 121(1): 118–127. doi: https://doi.org/10.1115/1.2825924
View articletitled, Evaporation Heat Transfer and Pressure Drop of Refrigerant R-134a in a Plate Heat Exchanger
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Topics: Boiling , Evaporation , Heat exchangers , Heat transfer , Pressure drop , Refrigerants
Heat Transfer Enhancement
Performance Analysis and Optimization of Eccentric Annular Disk Fins
B. Kundu, P. K. Das
J. Heat Transfer. February 1999, 121(1): 128–135. doi: https://doi.org/10.1115/1.2825925
View articletitled, Performance Analysis and Optimization of Eccentric Annular Disk Fins
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Topics: Disks , Fins , Heat conduction , Optimization , Heat transfer , Cooling , Dimensions , Heat exchangers , Heat transfer coefficients
Local Flow and Heat Transfer Behavior in Convex-Louver Fin Arrays
N. C. DeJong, A. M. Jacobi
J. Heat Transfer. February 1999, 121(1): 136–141. doi: https://doi.org/10.1115/1.2825926
View articletitled, Local Flow and Heat Transfer Behavior in Convex-Louver Fin Arrays
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Topics: Flow (Dynamics) , Heat transfer
Heat Transfer Through an Extended Surface Containing He II
S. W. Van Sciver
J. Heat Transfer. February 1999, 121(1): 142–147. doi: https://doi.org/10.1115/1.2825927
View articletitled, Heat Transfer Through an Extended Surface Containing He II
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Topics: Heat exchangers , Heat transfer , Cryogenics , Design , Electrical conductance , Fluids , Heat conduction , Nonlinear differential equations
Heat Transfer in Manufacturing
Mechanisms of Thermo-Solutal Transport and Segregation in High-Pressure Liquid-Encapsulated Czochralski Crystal Growth
Y. F. Zou, G.-X. Wang, H. Zhang, V. Prasad
J. Heat Transfer. February 1999, 121(1): 148–159. doi: https://doi.org/10.1115/1.2825928
View articletitled, Mechanisms of Thermo-Solutal Transport and Segregation in High-Pressure Liquid-Encapsulated Czochralski Crystal Growth
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Topics: Crystal growth , High pressure (Physics) , Flow (Dynamics) , Crystals , Rotation , Boundary layers , Natural convection , Gallium arsenide , Gas flow , Heat transfer

Technical Briefs

Numerical Determination of Thermal Dispersion Coefficients Using a Periodic Porous Structure
F. Kuwahara, A. Nakayama
J. Heat Transfer. February 1999, 121(1): 160–163. doi: https://doi.org/10.1115/1.2825930
View articletitled, Numerical Determination of Thermal Dispersion Coefficients Using a Periodic Porous Structure
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Topics: Forced convection , Porous materials
Evaluation of Thermal Conductivities of Disordered Composite Media Using a Fractal Model
R. Pitchumani
J. Heat Transfer. February 1999, 121(1): 163–166. doi: https://doi.org/10.1115/1.2825931
View articletitled, Evaluation of Thermal Conductivities of Disordered Composite Media Using a Fractal Model
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Topics: Composite materials , Fractals , Heat conduction , Heat transfer , Porous materials
A Thermal Potential Formulation of Hyperbolic Heat Conduction
A. Barletta, E. Zanchini
J. Heat Transfer. February 1999, 121(1): 166–169. doi: https://doi.org/10.1115/1.2825933
View articletitled, A Thermal Potential Formulation of Hyperbolic Heat Conduction
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Topics: Heat conduction , Heat , Heat transfer , Waves
A Conservative Iterative-Based Zonal Decomposition Scheme for Conduction Heat Transfer Problems
O. E. Ruiz, W. Z. Black
J. Heat Transfer. February 1999, 121(1): 169–173. doi: https://doi.org/10.1115/1.2825935
View articletitled, A Conservative Iterative-Based Zonal Decomposition Scheme for Conduction Heat Transfer Problems
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Topics: Heat conduction , Heat transfer
Thermal Conductivity of a Material Containing a Layer of Thin Strips or a Staggered Array of Thin Strips
C. Y. Wang
J. Heat Transfer. February 1999, 121(1): 174–177. doi: https://doi.org/10.1115/1.2825936
View articletitled, Thermal Conductivity of a Material Containing a Layer of Thin Strips or a Staggered Array of Thin Strips
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Topics: Composite materials , Strips , Thermal conductivity , Eigenfunctions , Heat conduction , Heat transfer , Mass transfer
Thermal Contact Conductance of Sintered Copper Coatings on Ferro-Alloy
E. Marotta, L. S. Fletcher, T. Aikawa, K. Maki, Y. Aoki
J. Heat Transfer. February 1999, 121(1): 177–182. doi: https://doi.org/10.1115/1.2825938
View articletitled, Thermal Contact Conductance of Sintered Copper Coatings on Ferro-Alloy
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Topics: Alloys , Coatings , Contact resistance , Copper
Thermal Analysis of Solids at High Peclet Numbers Subjected to Moving Heat Sources
O. Manca, B. Morrone, S. Nardini
J. Heat Transfer. February 1999, 121(1): 182–186. doi: https://doi.org/10.1115/1.2825939
View articletitled, Thermal Analysis of Solids at High Peclet Numbers Subjected to Moving Heat Sources
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Topics: Heat , Heat transfer , Solids , Thermal analysis , Bricks , Differential equations , Diffusion (Physics) , Heat conduction , Heat losses , Lasers
Prediction of Heat Transfer in Turbulent, Transpired Boundary Layers
J. Sucec
J. Heat Transfer. February 1999, 121(1): 186–190. doi: https://doi.org/10.1115/1.2825940
View articletitled, Prediction of Heat Transfer in Turbulent, Transpired Boundary Layers
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Topics: Boundary layers , Heat transfer , Turbulence , Boundary layer turbulence , Pressure gradient , Suction , Flow (Dynamics) , Forced convection , Temperature , Thermal energy
Heat Flux Measurements in Homogeneous Curved Shear Flow
A. G. L. Holloway, S. A. Ebrahimi-Sabet
J. Heat Transfer. February 1999, 121(1): 190–194. doi: https://doi.org/10.1115/1.2825941
View articletitled, Heat Flux Measurements in Homogeneous Curved Shear Flow
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Topics: Heat flux , Shear flow , Turbulence , Flow (Dynamics) , Flux (Metallurgy) , Heat , Heat transfer , Heating , Shear (Mechanics) , Shear stress
Radiation Effects on Laminar Mixed Convection in an Inclined Square Duct
W.-M. Yan, H.-Y. Li
J. Heat Transfer. February 1999, 121(1): 194–200. doi: https://doi.org/10.1115/1.2825942
View articletitled, Radiation Effects on Laminar Mixed Convection in an Inclined Square Duct
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Topics: Ducts , Mixed convection , Radiation effects , Numerical analysis , Radiation (Physics)
Numerical Solutions of Three-Dimensional Non-Grey Gas Radiative Transfer Using the Statistical Narrow-Band Model
F. Liu
J. Heat Transfer. February 1999, 121(1): 200–203. doi: https://doi.org/10.1115/1.2825944
View articletitled, Numerical Solutions of Three-Dimensional Non-Grey Gas Radiative Transfer Using the Statistical Narrow-Band Model
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Topics: Radiation (Physics) , Radiative heat transfer , Water , Carbon dioxide , Heat transfer , Ray tracing , Water vapor
Application of Adaptive Quadrature to Fire Radiation Modeling
P. S. Cumber
J. Heat Transfer. February 1999, 121(1): 203–205. doi: https://doi.org/10.1115/1.2825945
View articletitled, Application of Adaptive Quadrature to Fire Radiation Modeling
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Topics: Fire , Modeling , Radiation (Physics) , Flames , Heat transfer , Numerical analysis
Enhanced Cooling via Boiling in Porous Layers: The Effect of Vapor Channels
A. K. Stubos, J.-M. Buchlin
J. Heat Transfer. February 1999, 121(1): 205–210. doi: https://doi.org/10.1115/1.2825946
View articletitled, Enhanced Cooling via Boiling in Porous Layers: The Effect of Vapor Channels
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Topics: Boiling , Cooling , Heat transfer , Vapors
Prediction of Pressure Drop in a Boiling Channel
A. S. Fleischer, E. V. McAssey, Jr., G. F. Jones
J. Heat Transfer. February 1999, 121(1): 210–212. doi: https://doi.org/10.1115/1.2825947
View articletitled, Prediction of Pressure Drop in a Boiling Channel
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Topics: Boiling , Pressure drop , Heat transfer , Modeling
Prediction of the Operating Limits of Revolving Helically Grooved Heat Pipes
K. S. Klasing, S. K. Thomas, K. L. Yerkes
J. Heat Transfer. February 1999, 121(1): 213–216. doi: https://doi.org/10.1115/1.2825948
View articletitled, Prediction of the Operating Limits of Revolving Helically Grooved Heat Pipes
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Topics: Heat pipes , Flow (Dynamics) , Heat transfer
Critical Heat Fluxes in Flat Miniature Heat Sinks With Micro Capillary Grooves
R. Hopkins, A. Faghri, D. Khrustalev
J. Heat Transfer. February 1999, 121(1): 217–219. doi: https://doi.org/10.1115/1.2825949
View articletitled, Critical Heat Fluxes in Flat Miniature Heat Sinks With Micro Capillary Grooves
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Topics: Flow (Dynamics) , Flux (Metallurgy) , Heat , Heat pipes , Heat sinks , Heat transfer
A Model of Bubble Nucleation on a Micro Line Heater
S.-D. Oh, S. S. Seung, H. Y. Kwak
J. Heat Transfer. February 1999, 121(1): 220–225. doi: https://doi.org/10.1115/1.2825950
View articletitled, A Model of Bubble Nucleation on a Micro Line Heater
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Topics: Bubbles , Nucleation (Physics) , Boiling , Cavities , Heat transfer , Heating , Microscale devices , Superheating , Temperature , Thermal diffusion
The Influence of Particulates on CaCO3 Scale Formation
N. Andritsos, A. J. Karabelas
J. Heat Transfer. February 1999, 121(1): 225–227. doi: https://doi.org/10.1115/1.2825951
View articletitled, The Influence of Particulates on CaCO<sub>3</sub> Scale Formation
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Topics: Heat transfer , Incrustations , Particulate matter
Fin (on a Pipe) Effectiveness: One Dimensional and Two Dimensional
D. C. Look, Jr.
J. Heat Transfer. February 1999, 121(1): 227–230. doi: https://doi.org/10.1115/1.2825953
View articletitled, Fin (on a Pipe) Effectiveness: One Dimensional and Two Dimensional
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Topics: Heat transfer , Pipes
Heat Transfer Enhancement Generated by the Chimney Effect in Systems of Vertical Channels
G. A. Shahin, J. M. Floryan
J. Heat Transfer. February 1999, 121(1): 230–232. doi: https://doi.org/10.1115/1.2825955
View articletitled, Heat Transfer Enhancement Generated by the Chimney Effect in Systems of Vertical Channels
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Topics: Heat transfer , Natural convection
An Experimental Study of Heat Transfer in Reciprocating Square Duct Fitted With Ribs Skewed to the Flow
S. W. Chang, L. M. Su, T. L. Yang, C. C. Hwang
J. Heat Transfer. February 1999, 121(1): 232–236. doi: https://doi.org/10.1115/1.2825956
View articletitled, An Experimental Study of Heat Transfer in Reciprocating Square Duct Fitted With Ribs Skewed to the Flow
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Topics: Ducts , Flow (Dynamics) , Heat transfer , Surface roughness
Correlation of Fully Developed Heat Transfer and Pressure Drop in a Symmetrically Grooved Channel
R. A. Wirtz, F. Huang, M. Greiner
J. Heat Transfer. February 1999, 121(1): 236–239. doi: https://doi.org/10.1115/1.2825957
View articletitled, Correlation of Fully Developed Heat Transfer and Pressure Drop in a Symmetrically Grooved Channel
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Topics: Forced convection , Heat transfer , Pressure drop
Radiation Heat Transfer in Multitube, Alkali-Metal Thermal-to-Electric Converter
J.-M. P. Tournier, M. S. El-Genk
J. Heat Transfer. February 1999, 121(1): 239–245. doi: https://doi.org/10.1115/1.2825958
View articletitled, Radiation Heat Transfer in Multitube, Alkali-Metal Thermal-to-Electric Converter
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Topics: Alkali metals , Heat transfer , Radiation (Physics) , Energy conversion , Modeling

Discussions

Discussion: “Consecutive-Photo Method to Measure Vapor Volume Flow Rate During Boiling From a Wire Immersed in Saturated Liquid” (Ammerman, C. N., and You, S. M., 1998, ASME J. Heat Transfer, 120, pp. 561–567)
J. R. Thome
J. Heat Transfer. February 1999, 121(1): 246. doi: https://doi.org/10.1115/1.2825959
View articletitled, Discussion: “Consecutive-Photo Method to Measure Vapor Volume Flow Rate During Boiling From a Wire Immersed in Saturated Liquid” (Ammerman, C. N., and You, S. M., 1998, ASME J. Heat Transfer, 120, pp. 561–567)
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Vapors , Wire
Closure to “Discussion of ‘Consecutive-Photo Method to Measure Vapor Volume Flow Rate During Boiling From a Wire Immersed in Saturated Liquid’” (1999, ASME J. Heat Transfer, 121, p. 246)
C. N. Ammerman, S. M. You
J. Heat Transfer. February 1999, 121(1): 246–247. doi: https://doi.org/10.1115/1.2825960
View articletitled, Closure to “Discussion of ‘Consecutive-Photo Method to Measure Vapor Volume Flow Rate During Boiling From a Wire Immersed in Saturated Liquid’” (1999, ASME J. Heat Transfer, 121, p. 246)
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Topics: Boiling , Flow (Dynamics) , Heat transfer , Vapors , Wire

Errata

Erratum: “Local and Global Simulations of Bridgman and Liquid-Encapsulated Czochralski Crystal Growth” (ASME Journal of Heat Transfer, 1998, 120, pp. 865–873)
H. Zhang, L. L. Zheng, V. Prasad, D. J. Larson, Jr.
J. Heat Transfer. February 1999, 121(1): 248. doi: https://doi.org/10.1115/1.2825961
View articletitled, Erratum: “Local and Global Simulations of Bridgman and Liquid-Encapsulated Czochralski Crystal Growth” (ASME Journal of Heat Transfer, 1998, 120, pp. 865–873)
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Topics: Crystal growth , Engineering simulation , Heat transfer , Simulation
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