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Issues

Volume 142, Issue 10
October 2020
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Review Article

Evaporation Momentum Force and Its Relevance to Boiling Heat Transfer
Satish G. Kandlikar
J. Heat Transfer. October 2020, 142(10): 100801. doi: https://doi.org/10.1115/1.4047268
View articletitled, Evaporation Momentum Force and Its Relevance to Boiling Heat Transfer
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Topics: Boiling , Bubbles , Critical heat flux , Evaporation , Flow (Dynamics) , Momentum , Vapors , Microchannels , Heat transfer , Temperature

Research Papers

Bio-Heat and Mass Transfer
In Vitro Thermal Assessment of Vascularized Tissue Phantom in Presence of Gold Nanorods During Photo-Thermal Therapy
Abhijit Paul, Anup Paul
J. Heat Transfer. October 2020, 142(10): 101201. doi: https://doi.org/10.1115/1.4047371
View articletitled, In Vitro Thermal Assessment of Vascularized Tissue Phantom in Presence of Gold Nanorods During Photo-Thermal Therapy
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Topics: Biological tissues , Nanoparticles , Lasers , Phantoms , Temperature , Nanorods
Evaporation, Boiling, and Condensation
Time Evolution of the Droplet Size Distribution in Dropwise Condensation
Maofei Mei, Feng Hu, Chong Han, Yan Sun, Dongdong Liu
J. Heat Transfer. October 2020, 142(10): 101601. doi: https://doi.org/10.1115/1.4047488
View articletitled, Time Evolution of the Droplet Size Distribution in Dropwise Condensation
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Topics: Drops , Condensation
Experimental Techniques
Thermal Exchange of Glass Micro-Fibers Measured by the 3ω Technique
T. D. Nguyen, J. Richard, J. Doumouro, Y. De Wilde, O. Bourgeois
J. Heat Transfer. October 2020, 142(10): 101701. doi: https://doi.org/10.1115/1.4047501
View articletitled, Thermal Exchange of Glass Micro-Fibers Measured by the <span class="inline-formula no-formula-id"><span class="mathFormula"></span><math xmlns="http://www.w3.org/1998/Math/MathML"><mrow xmlns=""><mn>3</mn><mo>ω</mo></mrow></math></span> Technique
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Topics: Contact resistance , Convection , Fibers , Glass fibers , Temperature , Thermal conductivity , Pressure , Specific heat , Vacuum , Geometry
Forced Convection
Rough Surface Turbulent Boundary Layer Heat Transfer Using Generalized Reynolds Analogies
James Sucec
J. Heat Transfer. October 2020, 142(10): 101801. doi: https://doi.org/10.1115/1.4047504
View articletitled, Rough Surface Turbulent Boundary Layer Heat Transfer Using Generalized Reynolds Analogies
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Topics: Flow (Dynamics) , Surface roughness , Turbulence , Boundary layer turbulence , Equilibrium (Physics) , Errors
A Simple Immersed Boundary Method for Modeling Forced Convection Heat Transfer
Guangfa Yao
J. Heat Transfer. October 2020, 142(10): 101802. doi: https://doi.org/10.1115/1.4047509
View articletitled, A Simple Immersed Boundary Method for Modeling Forced Convection Heat Transfer
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Topics: Boundary-value problems , Cylinders , Fluids , Heat transfer , Modeling , Temperature , Forced convection , Numerical analysis
Heat and Mass Transfer
The Discrete Green's Function for Convective Heat Transfer—Part 1: Definition and Physical Understanding
John K. Eaton
J. Heat Transfer. October 2020, 142(10): 102101. doi: https://doi.org/10.1115/1.4047515
View articletitled, The Discrete Green's Function for Convective Heat Transfer—Part 1: Definition and Physical Understanding
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Topics: Boundary layers , Convection , Flat plates , Flow (Dynamics) , Heat flux , Heat transfer , Temperature , Temperature distribution , Boundary-value problems , Thermal boundary layers
The Discrete Green's Function for Convective Heat Transfer—Part 2: Semi-Analytical Estimates of Boundary Layer Discrete Green's Function  
John K. Eaton, Pedro M. Milani
J. Heat Transfer. October 2020, 142(10): 102102. doi: https://doi.org/10.1115/1.4047516
View articletitled, The Discrete Green's Function for Convective Heat Transfer—Part 2: Semi-Analytical Estimates of Boundary Layer Discrete Green's Function  
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Topics: Boundary layer turbulence , Boundary layers , Flow (Dynamics) , Skin friction (Fluid dynamics) , Heat transfer , Flat plates
Temperature-Rate-Dependent Thermoelasticity Theory With Memory-Dependent Derivative: Energy, Uniqueness Theorems, and Variational Principle
Biswajit Singh, Indranil Sarkar, Smita Pal (Sarkar)
J. Heat Transfer. October 2020, 142(10): 102103. doi: https://doi.org/10.1115/1.4047510
View articletitled, Temperature-Rate-Dependent Thermoelasticity Theory With Memory-Dependent Derivative: Energy, Uniqueness Theorems, and Variational Principle
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Topics: Temperature , Theorems (Mathematics) , Thermoelasticity , Variational principles
Water, Toluene, Methanol, and Ethanol Under Microwave Irradiation: Numerical Simulations of the Effect of the Vessel's Size
M. C. Navarro
J. Heat Transfer. October 2020, 142(10): 102104. doi: https://doi.org/10.1115/1.4047512
View articletitled, Water, Toluene, Methanol, and Ethanol Under Microwave Irradiation: Numerical Simulations of the Effect of the Vessel's Size
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Topics: Absorption , Computer simulation , Ethanol , Irradiation (Radiation exposure) , Methanol , Microwaves , Temperature , Vessels , Water , Heating
Grad's Second Problem and Its Solution Within the Framework of Burnett Hydrodynamics
Ravi Sudam Jadhav, Amit Agrawal
J. Heat Transfer. October 2020, 142(10): 102105. doi: https://doi.org/10.1115/1.4047518
View articletitled, Grad's Second Problem and Its Solution Within the Framework of Burnett Hydrodynamics
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Topics: Flow (Dynamics) , Heat flux , Hydrodynamics , Pressure , Stress , Temperature , Simulation , Pressure gradient
Effects of Boot-Shaped Rib on Heat Transfer Characteristics of Internal Cooling Turbine Blades
Ky-Quang Pham, Quang-Hai Nguyen, Tai-Duy Vu, Cong-Truong Dinh
J. Heat Transfer. October 2020, 142(10): 102106. doi: https://doi.org/10.1115/1.4047490
View articletitled, Effects of Boot-Shaped Rib on Heat Transfer Characteristics of Internal Cooling Turbine Blades
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Topics: Cooling , Flow (Dynamics) , Heat transfer , Reynolds number , Turbine blades , Temperature
Micro/Nanoscale Heat Transfer
Thermohydraulic Behavior of Minichannel Surface Simulated With Gaussian Function and Actual Roughness Data Generated Using Three-Dimensional Optical Surface Profilometer
Indrasis Mitra, Indranil Ghosh
J. Heat Transfer. October 2020, 142(10): 102501. doi: https://doi.org/10.1115/1.4047491
View articletitled, Thermohydraulic Behavior of Minichannel Surface Simulated With Gaussian Function and Actual Roughness Data Generated Using Three-Dimensional Optical Surface Profilometer
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Topics: Gaussian distribution , Surface roughness , Flow (Dynamics) , Fluids , Heat flux
The Structural Optimization of Dimple in Microchannel for Heat Transfer Enhancement
Xiuping Chen, Jiabing Wang, Kun Yang
J. Heat Transfer. October 2020, 142(10): 102502. doi: https://doi.org/10.1115/1.4047513
View articletitled, The Structural Optimization of Dimple in Microchannel for Heat Transfer Enhancement
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Topics: Flow (Dynamics) , Heat transfer , Microchannels , Optimization , Reynolds number , Fluids
Framing the Impacts of Highly Oscillating Magnetic Field on the Ferrofluid Flow Over a Spinning Disk Considering Nanoparticle Diameter and Solid–Liquid Interfacial Layer
Nilankush Acharya
J. Heat Transfer. October 2020, 142(10): 102503. doi: https://doi.org/10.1115/1.4047503
View articletitled, Framing the Impacts of Highly Oscillating Magnetic Field on the Ferrofluid Flow Over a Spinning Disk Considering Nanoparticle Diameter and Solid–Liquid Interfacial Layer
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Topics: Ferrofluids , Flow (Dynamics) , Magnetic fields , Nanoparticles , Temperature , Thermal conductivity , Magnetization , Fluids , Rotating disks , Particulate matter
Natural and Mixed Convection
Finite Darcy–Prandtl Number and Maximum Density Effects on Gill's Stability Problem 
S. B. Naveen, B. M. Shankar, I. S. Shivakumara
J. Heat Transfer. October 2020, 142(10): 102601. doi: https://doi.org/10.1115/1.4047506
View articletitled, Finite Darcy–Prandtl Number and Maximum Density Effects on Gill's Stability Problem 
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Topics: Density , Porous materials , Prandtl number , Stability , Temperature , Flow (Dynamics) , Waves , Momentum , Rayleigh number
Experiments on the Identification of the Onset of Buoyancy-Driven Convection in High Aspect Ratio Top Open Cavities
Ashish Saxena, Atul Srivastava, Suneet Singh
J. Heat Transfer. October 2020, 142(10): 102602. doi: https://doi.org/10.1115/1.4047489
View articletitled, Experiments on the Identification of the Onset of Buoyancy-Driven Convection in High Aspect Ratio Top Open Cavities
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Topics: Buoyancy , Cavities , Convection , Flow (Dynamics) , Rayleigh number , Temperature

Technical Briefs

Thermohydraulic Behavior of the Liquid–Vapor Flow in the Receiver Tube of a Solar Parabolic Trough Collector
Sara Sallam, Mohamed Taqi
J. Heat Transfer. October 2020, 142(10): 104501. doi: https://doi.org/10.1115/1.4047511
View articletitled, Thermohydraulic Behavior of the Liquid–Vapor Flow in the Receiver Tube of a Solar Parabolic Trough Collector
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Topics: Boiling , Flow (Dynamics) , Pressure , Pressure drop , Steam , Vapors , Solar energy , Heat flux , Parabolic troughs , Heat transfer
Heat Transfer Characteristics of Nonuniform Flow Around a Circular Cylinder in a T-Junction Duct
Xiaoyu Wang, Di Qi, Tong Li, Mei Lin, Hanbing Ke, Min Zeng, Qiuwang Wang
J. Heat Transfer. October 2020, 142(10): 104502. doi: https://doi.org/10.1115/1.4047508
View articletitled, Heat Transfer Characteristics of Nonuniform Flow Around a Circular Cylinder in a T-Junction Duct
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Topics: Ducts , Heat transfer , Junctions , Circular cylinders , Cylinders , Separation (Technology) , Flow (Dynamics)
Computational Fluid Dynamics Investigation of Pitch Variations on Helically Coiled Pipe in Laminar Flow Region
Anwer F. F. Faraj, Itimad D. J. Azzawi, Samir Gh. Yahya, Amer Al-Damook
J. Heat Transfer. October 2020, 142(10): 104503. doi: https://doi.org/10.1115/1.4047646
View articletitled, Computational Fluid Dynamics Investigation of Pitch Variations on Helically Coiled Pipe in Laminar Flow Region
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Topics: Computational fluid dynamics , Flow (Dynamics) , Friction , Laminar flow , Pipes
All Issues
Effect of Rib Blockage Ratio and Arrangements on Impingement Heat Transfer in Double-Wall Cooling
J. Heat Mass Transfer (September 2023)
Numerical Simulation of Mixed Convection Cooling of Electronic Component Within a Lid-Driven Cubic Cavity Filled With Nanofluid
J. Heat Mass Transfer (September 2023)
Experimental Analysis of the Influential Factors on Mixed Convection Flow in Horizontal Pipes
J. Heat Mass Transfer (September 2023)
Influence of Impinging Jet Nozzle Movement On Heat Transfer Characteristics of a Flat Plate
J. Heat Mass Transfer
The Effect of Biot Number on a Generalized Heat Conduction Solution
J. Heat Mass Transfer
  • Online ISSN 2832-8469
  • Print ISSN 2832-8450

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