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A review of mass transfer measurements using naphthalene sublimation
R. J. Goldstein,
H. H. Cho
* Yonsei World 2% Researchers
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Review article
›
peer-review
428
Citations (Scopus)
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Earth and Planetary Sciences
Sublimation
60%
Wall
60%
Naphthalene
40%
Confidence
40%
Geometry
20%
Flow Velocity
20%
Anisotropy
20%
Latent Heat
20%
Dipping
20%
Free Convection
20%
Heat Transfer Coefficient
20%
Machining
20%
Spraying
20%
Convective Heat Transfer
20%
Constriction
20%
Error
20%
Investigation
20%
Utilization
20%
Analogy
20%
Rate
20%
Good
20%
Gradient
20%
Heat
20%
Casting
20%
Heat Transmission
20%
Engineering
Boundary Condition
40%
Mass Transfer
40%
Losses
40%
Conductive
20%
Measurement
20%
Isothermal
20%
Machining
20%
Heat Transfer Coefficient
20%
Test Specimen
20%
Measurement System
20%
Recovery Temperature
20%
Buoyancy Effect
20%
Latent Heat
20%
Spraying
20%
Measurement Process
20%
Human Error
20%
Error
20%
Applications
20%
Casting
20%
High Velocity
20%
High Accuracy
20%
Physics
Mass Transfer
100%
Constriction
40%
Confidence
40%
Anisotropy
20%
Machining
20%
Flow Velocity
20%
Latent Heat
20%
Convective Heat Transfer
20%
Spraying
20%
Utilization
20%
Castings
20%
Dipping
20%
Heat
20%
Geometry
20%
Gradients
20%
Free Convection
20%
Chemistry
Procedure
60%
Flow
60%
Naphthalene
40%
Transfer Coefficient
20%
Sublimation Method
20%
Error
20%
Rate
20%
Casting
20%
Machining
20%
Application
20%
Heat
20%
Spraying
20%
Convective Heat Transfer
20%