Volume 120 Issue 4 | Journal of Heat Transfer

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Editorial

Special Issue on Challenges and Opportunities in Heat Transfer Applications

John R. Howell

J. Heat Transfer. November 1998, 120(4): 809. doi: https://doi.org/10.1115/1.2825900

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Topics: Heat transfer

Research Papers

Special Section—Invited Papers on Opportunities in Heat Transfer Applications

Heat Transfer in Living Systems: Current Opportunities

K. R. Diller, T. P. Ryan

J. Heat Transfer. November 1998, 120(4): 810–829. doi: https://doi.org/10.1115/1.2825901

Abstract

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Topics: Heat transfer , Biological tissues , Ablation (Vaporization technology) , Bioheat transfer , Microwaves , Patient treatment , Ultrasound

A Review of Recent Developments in Some Practical Aspects of Air-Cooled Electronic Packages

S. Sathe, B. Sammakia

J. Heat Transfer. November 1998, 120(4): 830–839. doi: https://doi.org/10.1115/1.2825902

Abstract

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Topics: Electronic packages , Energy dissipation , Heat sinks , Accounting , Adhesives , Cooling , Electronics , Heat , Heat transfer , Manufacturing

Fundamental Issues and Recent Advancements in Analysis of Aircraft Brake Natural Convective Cooling

M. P. Dyko, K. Vafai

J. Heat Transfer. November 1998, 120(4): 840–857. doi: https://doi.org/10.1115/1.2825903

Abstract

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Topics: Aircraft , Brakes , Cooling , Heat transfer , Natural convection , Flow (Dynamics) , Braking , Wheels , Annulus , Buoyancy

Featured Section—Heat Transfer in Manufacturing

Analysis of Unsteady Heat and Mass Transfer During the Modified Chemical Vapor Deposition Process

K. S. Park, M. Choi

J. Heat Transfer. November 1998, 120(4): 858–864. doi: https://doi.org/10.1115/1.2825904

Abstract

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Topics: Chemical vapor deposition , Heat , Mass transfer

Local and Global Simulations of Bridgman and Liquid-Encapsulated Czochralski Crystal Growth

H. Zhang, L. L. Zheng, V. Prasad, D. J. Larson, Jr.

J. Heat Transfer. November 1998, 120(4): 865–873. doi: https://doi.org/10.1115/1.2825905

Abstract

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Topics: Crystal growth , Simulation , Crystals , Convection , Flow (Dynamics) , Shapes , Computer simulation , Dynamics (Mechanics) , Furnaces , Gallium arsenide

Diameter-Controlled Czochralski Growth of Silicon Crystals

H. Zhang, L. L. Zheng, V. Prasad, D. J. Larson, Jr.

J. Heat Transfer. November 1998, 120(4): 874–882. doi: https://doi.org/10.1115/1.2825906

Abstract

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Topics: Control algorithms , Convection , Crystal growth , Crystals , Dynamic models , Heat conduction , Heat transfer , Modeling , Radiation (Physics) , Shapes

Melting and Resolidification of a Subcooled Mixed Powder Bed With Moving Gaussian Heat Source

Yuwen Zhang, A. Faghri

J. Heat Transfer. November 1998, 120(4): 883–891. doi: https://doi.org/10.1115/1.2825907

Abstract

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Topics: Heat , Melting , Subcooling

Transient Elastic and Viscoelastic Thermal Stresses During Laser Drilling of Ceramics

M. F. Modest

J. Heat Transfer. November 1998, 120(4): 892–898. doi: https://doi.org/10.1115/1.2825908

Abstract

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Topics: Ablation (Vaporization technology) , Ceramics , Drilling , Lasers , Stress , Thermal stresses , Transients (Dynamics)

Transient Thermal Response of a Rotating Cylindrical Silicon Nitride Workpiece Subjected to a Translating Laser Heat Source, Part I: Comparison of Surface Temperature Measurements With Theoretical Results

J. C. Rozzi, F. E. Pfefferkorn, F. P. Incropera, Y. C. Shin

J. Heat Transfer. November 1998, 120(4): 899–906. doi: https://doi.org/10.1115/1.2825909

Abstract

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Topics: Heat , Lasers , Silicon nitride ceramics , Temperature measurement , Transients (Dynamics)

Transient Thermal Response of a Rotating Cylindrical Silicon Nitride Workpiece Subjected to a Translating Laser Heat Source, Part II: Parametric Effects and Assessment of a Simplified Model

J. C. Rozzi, F. P. Incropera, Y. C. Shin

J. Heat Transfer. November 1998, 120(4): 907–915. doi: https://doi.org/10.1115/1.2825910

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Topics: Heat , Lasers , Silicon nitride ceramics , Transients (Dynamics)

Thermal Transport and Flow in High-Speed Optical Fiber Drawing

Zhilong Yin, Y. Jaluria

J. Heat Transfer. November 1998, 120(4): 916–930. doi: https://doi.org/10.1115/1.2825911

Abstract

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Topics: Flow (Dynamics) , Optical fiber , Furnaces , Preforms , Fibers , Glass , Temperature , Boundary-value problems , Forced convection , Heat

A Model for Radiative Cooling of a Semitransparent Molten Glass Jet

M. Song, K. S. Ball, T. L. Bergman

J. Heat Transfer. November 1998, 120(4): 931–938. doi: https://doi.org/10.1115/1.2825912

Abstract

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Topics: Cooling , Glass , Temperature distribution , Jets , Manufacturing , Materials processing , Radiation (Physics) , Temperature , Viscosity

TECHNICAL NOTE: Weakly Ionized Plasma Arc Heat Transfer Between Geometrically Dissimilar Electrodes

S. S. Sripada, P. S. Ayyaswamy, I. M. Cohen

J. Heat Transfer. November 1998, 120(4): 939–942. doi: https://doi.org/10.1115/1.2825913

Abstract

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Topics: Electric arcs , Electrodes , Heat transfer , Plasmas (Ionized gases)

Analytical and Experimental Techniques

A New Way of Solving Transient Radiative-Conductive Heat Transfer Problems

S. Andre, A. Degiovanni

J. Heat Transfer. November 1998, 120(4): 943–955. doi: https://doi.org/10.1115/1.2825914

Abstract

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Topics: Heat transfer , Radiation (Physics) , Transients (Dynamics)

One-Dimensional Phase Field Models With Adaptive Grids

J. F. McCarthy

J. Heat Transfer. November 1998, 120(4): 956–964. doi: https://doi.org/10.1115/1.2825915

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Topics: Algorithms , Engineering simulation , Equilibrium (Physics) , Microscale devices , Modeling , Physics , Simulation , Solidification , Supercooling

A Modified Temperature-Jump Method for the Transition and Low-Pressure Regime

T. Beikircher, N. Benz, W. Spirkl

J. Heat Transfer. November 1998, 120(4): 965–970. doi: https://doi.org/10.1115/1.2825916

Abstract

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Topics: Heat conduction , Pressure , Temperature , Interpolation , Cryogenics , Cylinders , Flow (Dynamics) , High pressure (Physics) , Knudsen number , Modeling

Properties and Property Measurements

Effective Thermal Conductivity of a Thin, Randomly Oriented Composite Material

P. E. Phelan, R. C. Niemann

J. Heat Transfer. November 1998, 120(4): 971–976. doi: https://doi.org/10.1115/1.2825917

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Topics: Composite materials , Thermal conductivity , Fillers (Materials) , Generators , Heat conduction , Numerical analysis , Size effect

Conduction Heat Transfer

Constructal Three-Dimensional Trees for Conduction Between a Volume and One Point

G. A. Ledezma, A. Bejan

J. Heat Transfer. November 1998, 120(4): 977–984. doi: https://doi.org/10.1115/1.2825918

Abstract

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Topics: Heat conduction

Forced Convection

Fluid Flow and Heat Transfer Over a Three-Dimensional Spherical Object in a Pipe

N. Shahcheraghi, H. A. Dwyer

J. Heat Transfer. November 1998, 120(4): 985–990. doi: https://doi.org/10.1115/1.2825919

Abstract

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Topics: Flow (Dynamics) , Fluid dynamics , Heat transfer , Numerical analysis , Pipes , Drag (Fluid dynamics) , Forced convection , Friction , Reynolds number , Shear stress

Numerical Simulation on Heat Transfer and Fluid Flow Characteristics of Arrays With Nonuniform Plate Length Positioned Obliquely to the Flow Direction

L. B. Wang, G. D. Jiang, W. Q. Tao, H. Ozoe

J. Heat Transfer. November 1998, 120(4): 991–998. doi: https://doi.org/10.1115/1.2825920

Abstract

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Topics: Computer simulation , Flow (Dynamics) , Fluid dynamics , Heat transfer , Numerical analysis , Pressure drop , Computation , Cycles , Forced convection , Reynolds number

The Centerline Pressure and Cavity Shape of Horizontal Plane Choked Vapor Jets With Low Condensation Potential

T. J. Eden, T. F. Miller, H. R. Jacobs

J. Heat Transfer. November 1998, 120(4): 999–1007. doi: https://doi.org/10.1115/1.2825921

Abstract

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Topics: Cavities , Condensation , Jets , Pressure , Shapes , Vapors

Natural and Mixed Convection

Mechanical Coupling of Convective Rolls in a High Prandtl Number Fluid

P. Cerisier, M. Jaeger, M. Medale, S. Rahal

J. Heat Transfer. November 1998, 120(4): 1008–1018. doi: https://doi.org/10.1115/1.2825884

Abstract

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Topics: Fluids , Heat transfer , Prandtl number , Heating , Waves , Boundary-value problems , Computer simulation , Convection , Finite element analysis , Finite element methods

Natural Convection in a Narrow Horizontal Annulus: The Effects of Thermal and Hydrodynamic Instabilities

P. Cadiou, G. Desrayaud, G. Lauriat

J. Heat Transfer. November 1998, 120(4): 1019–1026. doi: https://doi.org/10.1115/1.2825885

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Topics: Annulus , Flow (Dynamics) , Hydrodynamic stability , Natural convection , Bifurcation , Buoyancy , Heat transfer , Rayleigh number , Shear (Mechanics)

Enhanced Heat Transfer Rate Measured for Natural Convection in Liquid Gallium in a Cubical Enclosure Under a Static Magnetic Field

Toshio Tagawa, Hiroyuki Ozoe

J. Heat Transfer. November 1998, 120(4): 1027–1032. doi: https://doi.org/10.1115/1.2825886

Abstract

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Topics: Gallium , Heat transfer , Magnetic fields , Natural convection

Mixing Structure of Plane Self-Preserving Buoyant Turbulent Plumes

R. Sangras, Z. Dai, G. M. Faeth

J. Heat Transfer. November 1998, 120(4): 1033–1041. doi: https://doi.org/10.1115/1.2825887

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Topics: Plumes (Fluid dynamics) , Turbulence

Boiling and Condensation

A Parametric Study of Nucleate Boiling on Structured Surfaces, Part I: Effect of Tunnel Dimensions

Liang-Han Chien, R. L. Webb

J. Heat Transfer. November 1998, 120(4): 1042–1048. doi: https://doi.org/10.1115/1.2825888

Abstract

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Topics: Boiling , Dimensions , Nucleate boiling , Tunnels , Copper foil , Corners (Structural elements) , Flux (Metallurgy) , Heat , Heat transfer

A Parametric Study of Nucleate Boiling on Structured Surfaces, Part II: Effect of Pore Diameter and Pore Pitch

Liang-Han Chien, R. L. Webb

J. Heat Transfer. November 1998, 120(4): 1049–1054. doi: https://doi.org/10.1115/1.2825889

Abstract

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Topics: Boiling , Dimensions , Flux (Metallurgy) , Heat , Heat transfer , Nucleate boiling

Combustion

Numerical Simulation of Combustion and Extinction of a Solid Cylinder in Low-Speed Cross Flow

Chin Tien Yang, J. S. T’ien

J. Heat Transfer. November 1998, 120(4): 1055–1063. doi: https://doi.org/10.1115/1.2825890

Abstract

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Topics: Combustion , Computer simulation , Cross-flow , Cylinders , Flames

Heat Pipes

The Heat Transport Capacity of Micro Heat Pipes

J. M. Ha, G. P. Peterson

J. Heat Transfer. November 1998, 120(4): 1064–1071. doi: https://doi.org/10.1115/1.2825891

Abstract

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Topics: Heat , Heat pipes

Heat Transfer Enhancement

Thermal and Hydraulic Performance of a Rectangular Duct With Multiple V-Shaped Ribs

C.-O. Olsson, B. Sunden

J. Heat Transfer. November 1998, 120(4): 1072–1077. doi: https://doi.org/10.1115/1.2825892

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Topics: Ducts , Heat exchangers , Flow (Dynamics) , Reynolds number , Cross section (Physics) , Forced convection , Heat transfer

Technical Briefs

Size Effects on the Thermodynamic Properties of Thin Solid Films

R. S. Prasher, P. E. Phelan

J. Heat Transfer. November 1998, 120(4): 1078–1081. doi: https://doi.org/10.1115/1.2825893

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Topics: Thin films , Heat transfer , Low temperature

A Conservative Numerical Scheme for the Energy Equation

J. Y. Murthy, S. R. Mathur

J. Heat Transfer. November 1998, 120(4): 1081–1086. doi: https://doi.org/10.1115/1.2825894

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Topics: Heat conduction , Heat transfer , Numerical analysis , Transients (Dynamics)

Transition From Turbulent Natural to Turbulent Forced Convection

K. Patel, B. F. Armaly, T. S. Chen

J. Heat Transfer. November 1998, 120(4): 1086–1089. doi: https://doi.org/10.1115/1.2825895

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Topics: Forced convection , Turbulence , Flow (Dynamics) , Flow visualization , Mixed convection , Natural convection

Entropy Generation due to Laminar Natural Convection From a Horizontal Isothermal Cylinder

B. A/K Abu-Hijleh, M. Abu-Qudais, E. Abu Nada

J. Heat Transfer. November 1998, 120(4): 1089–1090. doi: https://doi.org/10.1115/1.2825896

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Topics: Cylinders , Entropy , Natural convection , Numerical analysis , Thermodynamics

Study on Interpolation Schemes of the Discrete Ordinates Interpolation Method for Three-Dimensional Radiative Transfer With Nonorthogonal Grids

Seok-Ho Seo, Tae-Kuk Kim

J. Heat Transfer. November 1998, 120(4): 1091–1094. doi: https://doi.org/10.1115/1.2825897

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Topics: Interpolation , Numerical analysis , Radiation (Physics) , Radiative heat transfer

Discussions

Discussion: “Convective Condensation of Superheated Vapor” (Webb, R. L., 1998, ASME J. Heat Transfer, 120, pp. 418–421)

A. F. Mills

J. Heat Transfer. November 1998, 120(4): 1095–1096. doi: https://doi.org/10.1115/1.2825898

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Topics: Condensation , Heat transfer , Superheating , Vapors

Closure to “Discussion of ‘Convective Condensation of Superheated Vapor’” (1998, ASME J. Heat Transfer, 120, pp. 1095–1096)

Ralph Webb

J. Heat Transfer. November 1998, 120(4): 1096. doi: https://doi.org/10.1115/1.2825899

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Topics: Condensation , Heat transfer , Superheating

Issues

Editorial

Research Papers

Special Section—Invited Papers on Opportunities in Heat Transfer Applications

Featured Section—Heat Transfer in Manufacturing

Analytical and Experimental Techniques

Properties and Property Measurements

Conduction Heat Transfer

Forced Convection

Natural and Mixed Convection

Boiling and Condensation

Combustion

Heat Pipes

Heat Transfer Enhancement

Technical Briefs

Discussions

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