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Volume 144, Issue 10
October 2022
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Research Papers

Bio-Heat and Mass Transfer
Effects of Soret and Dufour Numbers on the Three-Dimensional MHD Flow of Micropolar Fluid Containing Gyrotactic Microorganisms Over a Bidirectional Stretching Sheet With Cattaneo–Christov Heat and Mass Flux Model
Muhammad Ramzan, Fuad S. Alduais, Abdullah Dawar, Anwar Saeed, Poom Kumam, Wiboonsak Watthayu
J. Heat Transfer. October 2022, 144(10): 101201. doi: https://doi.org/10.1115/1.4054989
View articletitled, Effects of Soret and Dufour Numbers on the Three-Dimensional MHD Flow of Micropolar Fluid Containing Gyrotactic Microorganisms Over a Bidirectional Stretching Sheet With Cattaneo–Christov Heat and Mass Flux Model
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Topics: Flow (Dynamics) , Fluids , Heat , Magnetohydrodynamics , Microorganisms , Density , Relaxation (Physics) , Nanofluids , Temperature
Evaporation, Boiling, and Condensation
A Theoretical Model to Predict Pool Boiling Critical Heat Flux for Micro/Nano-Structured Surfaces
A. Bharadwaj, R. D. Misra
J. Heat Transfer. October 2022, 144(10): 101601. doi: https://doi.org/10.1115/1.4054899
View articletitled, A Theoretical Model to Predict Pool Boiling Critical Heat Flux for Micro/Nano-Structured Surfaces
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Topics: Bubbles , Critical heat flux , Microchannels , Surface roughness , Vapors
Transient Film Condensation on a Vertical Plate in an Anisotropic Permeability Porous Medium With Oblique Principal Axes
Stanislas Arthur Oladélé Sanya, Christian Akowanou, Aliou Djibril Moussa, Jean-Louis Comlan Fannou, Max Fréjus Owolabi Sanya
J. Heat Transfer. October 2022, 144(10): 101602. doi: https://doi.org/10.1115/1.4055091
View articletitled, Transient Film Condensation on a Vertical Plate in an Anisotropic Permeability Porous Medium With Oblique Principal Axes
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Topics: Anisotropy , Film condensation , Flow (Dynamics) , Liquid films , Permeability , Porous materials , Transients (Dynamics) , Steady state , Vertical plates , Condensation
Forced Convection
A Conservation-Based Transitional Boundary Layer Model
M. Q. Brewster
J. Heat Transfer. October 2022, 144(10): 101801. doi: https://doi.org/10.1115/1.4054838
View articletitled, A Conservation-Based Transitional Boundary Layer Model
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Topics: Boundary layers , Heat flux , Turbulence , Flow (Dynamics) , Wall temperature , Reynolds number
Heat and Mass Transfer
Discrete Phase Analysis of Self Heating Particles Over an Immersion Liquid Cooled High Power Blue Light-Emitting Diode With Suspended Phosphor Particles
Ceren Cengiz, Ahmet Mete Muslu, Mohammad Azarifar, Mehmet Arik, Baris Dogruoz
J. Heat Transfer. October 2022, 144(10): 102101. doi: https://doi.org/10.1115/1.4055145
View articletitled, Discrete Phase Analysis of Self Heating Particles Over an Immersion Liquid Cooled High Power Blue Light-Emitting Diode With Suspended Phosphor Particles
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Topics: Fluids , Heat , Heating , Particulate matter , Phosphors , Temperature , Light-emitting diodes
A Dual Solid Method for Topological Optimization of a Conducting Solid Cooled by Gas Conduction and Surface Radiation
Chadwick D. Sevart, Theodore L. Bergman
J. Heat Transfer. October 2022, 144(10): 102102. doi: https://doi.org/10.1115/1.4054987
View articletitled, A Dual Solid Method for Topological Optimization of a Conducting Solid Cooled by Gas Conduction and Surface Radiation
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Topics: Heat conduction , Optimization , Radiation (Physics) , Shapes , Topology , Solid models , Heat , Heat transfer , Temperature
Tempering Drying and Energy Consumption
N. Ben Mustapha, I. Boumnijel, D. Mihoubi
J. Heat Transfer. October 2022, 144(10): 102103. doi: https://doi.org/10.1115/1.4055045
View articletitled, Tempering Drying and Energy Consumption
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Topics: Drying , Energy consumption
Micro/Nanoscale Heat Transfer
Falkner–Skan Problem for a Stretching or Shrinking Wedge With Nanoparticle Aggregation
Moh Yaseen, Sawan Kumar Rawat, Manoj Kumar
J. Heat Transfer. October 2022, 144(10): 102501. doi: https://doi.org/10.1115/1.4055046
View articletitled, Falkner–Skan Problem for a Stretching or Shrinking Wedge With Nanoparticle Aggregation
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Topics: Nanofluids , Nanoparticles , Shrinkage (Materials) , Titanium dioxide , Wedges , Flow (Dynamics) , Magnetic fields , Thermal radiation , Suction , Heat transfer
Natural and Mixed Convection
Rayleigh–Bénard Convection in a Radiating Fluid
P. G. Siddheshwar, C. Kanchana, D. Laroze
J. Heat Transfer. October 2022, 144(10): 102601. doi: https://doi.org/10.1115/1.4054816
View articletitled, Rayleigh–Bénard Convection in a Radiating Fluid
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Topics: Convection , Fluids , Heat , Radiation (Physics) , Radiation effects , Rayleigh number , Stability , Transparency , Thermal radiation , Chaos
The Combined Impact of Thermal Radiation and Thermophoresis on Buoyancy-Driven Flow Near an Inclined Porous Plate
Basant K. Jha, Gabriel Samaila
J. Heat Transfer. October 2022, 144(10): 102602. doi: https://doi.org/10.1115/1.4055113
View articletitled, The Combined Impact of Thermal Radiation and Thermophoresis on Buoyancy-Driven Flow Near an Inclined Porous Plate
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Topics: Buoyancy , Flow (Dynamics) , Fluids , Heat transfer , Mass transfer , Suction , Temperature , Thermal radiation , Particulate matter , Boundary layers
Porous Media
Forced Convection in a Transpired Passage With a Porous Medium Insert
Xiaohui Bai, Yuan Yi, Cunliang Liu, Akira Nakayama
J. Heat Transfer. October 2022, 144(10): 102701. doi: https://doi.org/10.1115/1.4054763
View articletitled, Forced Convection in a Transpired Passage With a Porous Medium Insert
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Topics: Cooling , Fluids , Forced convection , Porous materials , Temperature , Temperature profiles , Wall temperature , Thermal conductivity , Transpiration , Coolants
Thermal and Fluid Properties
An Expert Model Based on Physics-Aware Neural Network for the Prediction of Thermal Conductivity of Nanofluids
Bivas Bhaumik, Satyasaran Changdar, Soumen De
J. Heat Transfer. October 2022, 144(10): 103501. doi: https://doi.org/10.1115/1.4055116
View articletitled, An Expert Model Based on Physics-Aware Neural Network for the Prediction of Thermal Conductivity of Nanofluids
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Topics: Artificial neural networks , Nanofluids , Physics , Thermal conductivity , Temperature , Nanoparticles , Algorithms , Fluids , Machine learning
Non-Newtonian Fluid Heat and Mass Transfer
Adaptive Computations to Pressure Profile for Creeping Flow of a Non-Newtonian Fluid With Fluid Nonconstant Density Effects
M. G. Ibrahim
J. Heat Transfer. October 2022, 144(10): 103601. doi: https://doi.org/10.1115/1.4055092
View articletitled, Adaptive Computations to Pressure Profile for Creeping Flow of a Non-Newtonian Fluid With Fluid Nonconstant Density Effects
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Topics: Creeping flow , Density , Fluids , Pressure , Fluid density , Non-Newtonian fluids , Chemical reactions
Flow and Transport in Turbines
Parametric Study and Correlation of Racetrack Shaped Jets for Leading Edge Impingement
Ritwik V. Kulkarni, Lesley M. Wright
J. Heat Transfer. October 2022, 144(10): 103801. doi: https://doi.org/10.1115/1.4054900
View articletitled, Parametric Study and Correlation of Racetrack Shaped Jets for Leading Edge Impingement
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Topics: Discharge coefficient , Flow (Dynamics) , Heat transfer , Jets , Pressure , Reynolds number

Technical Brief

H1 and H2 Forced Convection in Semi-Elliptic Ducts
C. Y. Wang
J. Heat Transfer. October 2022, 144(10): 104501. doi: https://doi.org/10.1115/1.4055147
View articletitled, H1 and H2 Forced Convection in Semi-Elliptic Ducts
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Topics: Ducts , Forced convection , Boundary-value problems
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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