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Numerical study of heat transfer enhancement of channel via vortex-induced vibration
Junxiang Shi, Jingwen Hu, Steven R. Schafer, Chung-Lung Chen
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機械工程學系
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引文 斯高帕斯(Scopus)
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Engineering
Numerical Study
100%
Heat Transfer Enhancement
100%
Thermal Boundary Layer
100%
Vortex Induced Vibration
100%
Heat Transfer Rate
66%
Vortex
33%
Two Dimensional
33%
Flow Structure
33%
Inlet Temperature
33%
Dimensional Modeling
33%
Vortex Shedding
33%
Flexible Plate
33%
Modeling Study
33%
Disruptions
33%
Thermal Diffusion
33%
Average Nusselt Number
33%
Structure Interaction
33%
Temperature Profile
33%
Keyphrases
Heat Transfer Enhancement
100%
Thermal Boundary Layer
100%
Vortex-induced Vibration
100%
Heat Transfer Rate
66%
Temperature Profile
33%
Oscillation
33%
Inlet Temperature
33%
Vortex Shedding
33%
Flexible Plate
33%
Average Nusselt number
33%
Mixing Process
33%
Air-cooled Heat Sink
33%
Thermal Diffusion
33%
Two-dimensional Modeling
33%
Passive Method
33%
Vortex Interactions
33%
Flow-structure Interactions
33%
Physics
Thermal Boundary Layer
100%
Heat Transfer Enhancement for Application
100%
Vortex Induced Vibration
100%
Heat Sink
33%
Vortex Shedding
33%
Temperature Profile
33%
Nusselt Number
33%
Inlet Temperature
33%
Thermal Diffusion
33%
Earth and Planetary Sciences
Thermal Boundary Layer
100%
Heat Sink
33%
Nusselt Number
33%
Flow Structure
33%
Vortex Shedding
33%
Temperature Profile
33%
Inlet Temperature
33%
Thermal Diffusion
33%
Chemical Engineering
Nusselt Number
100%
Thermal Diffusion
100%