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Issues

Volume 141, Issue 4
April 2019
This article was originally published in
Journal of Heat Transfer
Issue Cover
ISSN 0022-1481
EISSN 1528-8943

Research Papers

Evaporation, Boiling, and Condensation
Direct Contact Condensation Jet in Cross-Flow Using Computational Fluid Dynamics
Bernardo Alan de Freitas Duarte, Ricardo Serfaty, Aristeu da Silveira Neto
J. Heat Transfer. April 2019, 141(4): 041501. doi: https://doi.org/10.1115/1.4042779
View articletitled, Direct Contact Condensation Jet in Cross-Flow Using Computational Fluid Dynamics
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Topics: Condensation , Cross-flow , Flow (Dynamics) , Simulation , Vapors , Bubbles , Water , Temperature , Computational fluid dynamics , Subcooling
Forced Convection
Effect of Power-Law Fluid Behavior on Nusselt Number of a Circular Disk in the Forced Convection Regime
P. Mishra, S. A. Patel, M. Trivedi, R. P. Chhabra
J. Heat Transfer. April 2019, 141(4): 041701. doi: https://doi.org/10.1115/1.4042784
View articletitled, Effect of Power-Law Fluid Behavior on Nusselt Number of a Circular Disk in the Forced Convection Regime
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Topics: Disks , Fluids , Forced convection , Reynolds number , Critical heat flux , Heart failure , Boundary-value problems , Prandtl number
Heat Transfer Enhancement and Turbulent Flow in a Rectangular Channel Using Perforated Ribs With Inclined Holes
Jian Liu, Safeer Hussain, Wei Wang, Lei Wang, Gongnan Xie, Bengt Sundén
J. Heat Transfer. April 2019, 141(4): 041702. doi: https://doi.org/10.1115/1.4042841
View articletitled, Heat Transfer Enhancement and Turbulent Flow in a Rectangular Channel Using Perforated Ribs With Inclined Holes
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Topics: Flow (Dynamics) , Heat transfer , Liquid crystals , Temperature , Turbulence , Thermography , Simulation
Heat Transfer Enhancement
Heat-Transfer Enhancement Incorporating Fin-Like Structures Inside Droplet on Hydrophobic Surface
Abdullah Al-Sharafi, Bekir S. Yilbas, Abdullah Al-Zahrani
J. Heat Transfer. April 2019, 141(4): 041901. doi: https://doi.org/10.1115/1.4042771
View articletitled, Heat-Transfer Enhancement Incorporating Fin-Like Structures Inside Droplet on Hydrophobic Surface
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Topics: Drops , Heat transfer , Particulate matter , Flow (Dynamics) , Temperature , Fluids
Sensitivity Analysis of a Heat Exchanger Tube Fitted With Cross-Cut Twisted Tape With Alternate Axis
M. E. Nakhchi, J. A. Esfahani
J. Heat Transfer. April 2019, 141(4): 041902. doi: https://doi.org/10.1115/1.4042780
View articletitled, Sensitivity Analysis of a Heat Exchanger Tube Fitted With Cross-Cut Twisted Tape With Alternate Axis
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Topics: Design , Friction , Heat exchangers , Heat transfer , Response surface methodology , Reynolds number , Sensitivity analysis , Temperature , Turbulence , Flow (Dynamics)
Heat and Mass Transfer
Analytical Solutions to Nonuniform Surface Heat Transfer With Volumetric Sources in Magnetohydrodynamic Duct Flow
Michael J. Bluck
J. Heat Transfer. April 2019, 141(4): 042001. doi: https://doi.org/10.1115/1.4042776
View articletitled, Analytical Solutions to Nonuniform Surface Heat Transfer With Volumetric Sources in Magnetohydrodynamic Duct Flow
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Topics: Flow (Dynamics) , Heat flux , Heat transfer , Temperature , Ducts , Magnetohydrodynamics
Impact of Pulse Length on the Accuracy of Defect Depth Measurements in Pulse Thermography
James Pierce, Nathan B. Crane
J. Heat Transfer. April 2019, 141(4): 042002. doi: https://doi.org/10.1115/1.4042785
View articletitled, Impact of Pulse Length on the Accuracy of Defect Depth Measurements in Pulse Thermography
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Topics: Errors , Simulation , Temperature , Thermography , Polymers , Thermal diffusivity , Heating , Simulation results , Metals , Materials properties
Heat Transfer in Manufacturing
Thermal and Mechanical Behavior in Laser Trepan Drilling of Yttria-Stabilized Zirconia
Hong Shen, Decai Feng
J. Heat Transfer. April 2019, 141(4): 042101. doi: https://doi.org/10.1115/1.4042778
View articletitled, Thermal and Mechanical Behavior in Laser Trepan Drilling of Yttria-Stabilized Zirconia
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Topics: Drilling , Lasers , Phase transitions , Stress , Temperature , Cracking (Materials) , Fracture (Process)
Jets, Wakes, and Impingment Cooling
On Improving Full-Coverage Effusion Cooling Efficiency by Varying Cooling Arrangements and Wall Thickness in Double Wall Cooling Application
Weihong Li, Xunfeng Lu, Xueying Li, Jing Ren, Hongde Jiang
J. Heat Transfer. April 2019, 141(4): 042201. doi: https://doi.org/10.1115/1.4042772
View articletitled, On Improving Full-Coverage Effusion Cooling Efficiency by Varying Cooling Arrangements and Wall Thickness in Double Wall Cooling Application
Supplementary data
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Topics: Cooling , Wall thickness
Film Cooling Effectiveness From Two Rows of Compound Angled Cylindrical Holes Using Pressure-Sensitive Paint Technique
Nian Wang, Mingjie Zhang, Chao-Cheng Shiau, Je-Chin Han
J. Heat Transfer. April 2019, 141(4): 042202. doi: https://doi.org/10.1115/1.4042777
View articletitled, Film Cooling Effectiveness From Two Rows of Compound Angled Cylindrical Holes Using Pressure-Sensitive Paint Technique
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Topics: Cooling , Design , Film cooling , Flow (Dynamics) , Density , Coolants , Pressure , Geometry , Flat plates
Characterization of Impingement Heat/Mass Transfer to the Synthetic Jet Generated by a Biomimetic Actuator
Zdeněk Trávníček, Zuzana Broučková
J. Heat Transfer. April 2019, 141(4): 042203. doi: https://doi.org/10.1115/1.4042781
View articletitled, Characterization of Impingement Heat/Mass Transfer to the Synthetic Jet Generated by a Biomimetic Actuator
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Topics: Actuators , Heat , Mass transfer , Nozzles , Biomimetics
Micro/Nanoscale Heat Transfer
Numerical Modeling of Slip Flow and Heat Transfer Over Microcylinders With Lattice Boltzmann Method
Zhenyu Liu, Zhiyu Mu, Huiying Wu
J. Heat Transfer. April 2019, 141(4): 042401. doi: https://doi.org/10.1115/1.4042770
View articletitled, Numerical Modeling of Slip Flow and Heat Transfer Over Microcylinders With Lattice Boltzmann Method
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Topics: Computer simulation , Flow (Dynamics) , Heat transfer , Lattice Boltzmann methods , Microscale devices , Slip flow , Temperature , Wakes , Boundary-value problems , Gas flow
Natural and Mixed Convection
Free Convection in a Wavy Walled Cavity With a Magnetic Source Using Radial Basis Functions
Bengisen Pekmen Geridonmez
J. Heat Transfer. April 2019, 141(4): 042501. doi: https://doi.org/10.1115/1.4042782
View articletitled, Free Convection in a Wavy Walled Cavity With a Magnetic Source Using Radial Basis Functions
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Topics: Cavities , Convection , Natural convection , Waves , Vortices , Vorticity , Rayleigh number , Splines
Numerical Analysis of Plume Structures of Fluids on a Horizontal Heated Plate
T. Praphul, P. J. Joshy, P. S. Tide
J. Heat Transfer. April 2019, 141(4): 042502. doi: https://doi.org/10.1115/1.4042812
View articletitled, Numerical Analysis of Plume Structures of Fluids on a Horizontal Heated Plate
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Topics: Fluids , Plumes (Fluid dynamics) , Rayleigh number , Computational fluid dynamics , Boundary-value problems , Flow (Dynamics)
Two-Phase Flow and Heat Transfer
Two-Phase Pipe Quenching Correlations for Liquid Nitrogen and Liquid Hydrogen
S. R. Darr, J. W. Hartwig, J. Dong, H. Wang, A. K. Majumdar, A. C. LeClair, J. N. Chung
J. Heat Transfer. April 2019, 141(4): 042901. doi: https://doi.org/10.1115/1.4041830
View articletitled, Two-Phase Pipe Quenching Correlations for Liquid Nitrogen and Liquid Hydrogen
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Topics: Boiling , Flow (Dynamics) , Fluids , Hydrogen , Nitrogen , Pressure , Quenching (Metalworking) , Temperature , Critical heat flux , Pipes

Technical Brief

On the Effective Thermal Conductivity of Nanofluids With Fractal Aggregation
C. G. Subramaniam
J. Heat Transfer. April 2019, 141(4): 044501. doi: https://doi.org/10.1115/1.4042813
View articletitled, On the Effective Thermal Conductivity of Nanofluids With Fractal Aggregation
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Topics: Fractals , Thermal conductivity , Dimensions , Nanofluids , Particulate matter

Discussion

Discussion: “Convection Heat Transfer of Power-Law Fluids Along the Inclined Nonuniformly Heated Plate With Suction or Injection” [Sui, J., Zheng, L., and Zhang, X., 2016, ASME J. Heat Transfer, 138(2), p. 021701]
Asterios Pantokratoras
J. Heat Transfer. April 2019, 141(4): 045501. doi: https://doi.org/10.1115/1.4042783
View articletitled, Discussion: “Convection Heat Transfer of Power-Law Fluids Along the Inclined Nonuniformly Heated Plate With Suction or Injection” [Sui, J., Zheng, L., and Zhang, X., 2016, ASME J. Heat Transfer, <strong>138</strong>(2), p. 021701]
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Topics: Convection , Fluids , Heat transfer , Suction
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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