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Heat transfer to sub-cooled binary solution in horizontal tube
G. Orian
, M. Jelinek
,
A. Levy
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Keyphrases
Heat Transfer
100%
Heat Transfer Coefficient
100%
Horizontal Tube
100%
Binary Solution
100%
Subcooling
100%
Fluid Properties
57%
Thermal Conductivity
28%
Dimethylacetamide (DMAc)
28%
Convective Heat Transfer
14%
Heat Mass Transfer
14%
Viscosity
14%
Heat Transfer Process
14%
Experimental Values
14%
Miscible Fluids
14%
CH2F2
14%
Semi-empirical Model
14%
Correlation Rules
14%
Flow Properties
14%
Mass Transfer Process
14%
Inaccurate Predictions
14%
Mechanistic Model
14%
Organic Mixture
14%
Thermophysical Properties
14%
Mixing Rules
14%
Heat Capacity
14%
Error Range
14%
Solution Properties
14%
Coefficient Prediction
14%
Engineering
Heat Transfer Coefficient
100%
Horizontal Tube
100%
Binary Solution
100%
Predicted Heat Transfer Coefficient
75%
Fluid Property
75%
Thermal Conductivity
50%
Mass Transfer
25%
Convective
25%
Fluid Viscosity
25%
Experimental Value
25%
Mechanistic Model
25%
Empirical Model
25%
Flow Property
25%
Heat Capacity
25%
Solution Property
25%
Mixing Rule
25%
Organic Mixture
25%
Chemical Engineering
Heat Transfer Coefficient
100%
Thermal Conductivity
28%
Specific Heat
14%
Mass Transfer
14%