Journal of Heat Transfer-Transactions of the Asme

(The H4-Index of Journal of Heat Transfer-Transactions of the Asme is 19. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-06-01 to 2024-06-01.)
Physics-Informed Neural Networks for Heat Transfer Problems342
A Modern Review on Jet Impingement Heat Transfer Methods69
Bioconvection of a Radiating Hybrid Nanofluid Past a Thin Needle in the Presence of Heterogeneous–Homogeneous Chemical Reaction67
Framing the Impacts of Highly Oscillating Magnetic Field on the Ferrofluid Flow Over a Spinning Disk Considering Nanoparticle Diameter and Solid–Liquid Interfacial Layer51
Thermosolutal Marangoni Impact on Bioconvection in Suspension of Gyrotactic Microorganisms Over an Inclined Stretching Sheet45
A Three-Dimensional Non-Newtonian Magnetic Fluid Flow Induced Due to Stretching of the Flat Surface With Chemical Reaction43
Status, Challenges, and Potential for Machine Learning in Understanding and Applying Heat Transfer Phenomena43
Thermal Transport in Polymers: A Review40
Heat Transfer Enhancement Feature of the Non-Fourier Cattaneo–Christov Heat Flux Model38
Spectral Simulation on the Flow Patterns and Thermal Control of Radiative Nanofluid Spraying on an Inclined Revolving Disk Considering the Effect of Nanoparticle Diameter and Solid–Liquid Interfacial 35
The Past and Future of the Monte Carlo Method in Thermal Radiation Transfer27
Comparison of Single-Phase Convection in Additive Manufactured Versus Traditional Metal Foams26
Falkner–Skan Problem for a Stretching or Shrinking Wedge With Nanoparticle Aggregation25
Effect of Driven Sidewalls on Mixed Convection in an Open Trapezoidal Cavity With a Channel24
Sensitivity of Thermal Predictions to Uncertain Surface Tension Data in Laser Additive Manufacturing22
Artificial Neural Networks in Radiation Heat Transfer Analysis21
Entropy Generation Analysis and Cooling Time Estimation for a Rotating Vertical Hollow Tube in the Air Medium20
Thermofluid Characteristics on Natural and Mixed Convection Heat Transfer From a Vertical Rotating Hollow Cylinder Immersed in Air: A Numerical Exercise20
Opportunities in Nano-Engineered Surface Designs for Enhanced Condensation Heat and Mass Transfer19