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Design of ammonia-water condenser with a fluted tube
Tae Kang Yong
*
, Weibo Chen
, Richard N. Christensen
*
Corresponding author for this work
Research output
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Contribution to journal
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Article
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peer-review
12
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Keyphrases
Ammonia Water
100%
Fluted Tube
100%
Water Condensers
100%
Condenser
80%
Heat Transfer Coefficient
40%
Molar Concentration
40%
Ammonia
40%
Heat Mass Transfer
40%
Vapor-liquid-solid
40%
Superheated Vapor
40%
Inlet Concentration
40%
Hydronic
40%
Helically Coiled
40%
Heat Transfer
20%
Size Reduction
20%
Rectifier
20%
Heat Effect
20%
Heat Transfer Rate
20%
Heat Exchanger
20%
Fluid Flow
20%
Condensation
20%
Subcooling
20%
Mass Transfer
20%
Dominant Effect
20%
Cross-flow
20%
Geometric Details
20%
Heat Transfer Analysis
20%
Mass Transfer Analysis
20%
Heat Transfer Enhancement
20%
Coolant Flow
20%
Liquid Concentration
20%
Absorption Heat Pump System
20%
Liquid Region
20%
Combined Heat Transfer
20%
Vapor Concentration
20%
Heat Transfer Mechanism
20%
Subcooled Liquid
20%
Design Model
20%
Annular Channel
20%
Ammonia-water Mixture
20%
Coiled Tube
20%
Engineering
Ammonia Water
100%
Condenser
100%
Heat Transfer Coefficient
28%
Molar Concentration
28%
Rectification
28%
Superheated Vapor
28%
Exchanger
14%
Heat Pump
14%
Heat Transfer Rate
14%
Fluid Flow
14%
Length Unit
14%
Coolant Flow
14%
Design Result
14%
Liquid Region
14%
Combined Heat
14%
Subcooled Liquid
14%
Design Model
14%
Annular Channel
14%
Coiled Tube
14%
Heat Transfer
14%