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Entropy analysis of conjugate heating in a pipe flow
S. J. Hyder
,
B. S. Yilbas
*
*
Corresponding author for this work
King Fahd University of Petroleum & Minerals
Department of Mechanical Engineering
Interdisciplinary Research Center for Sustainable Energy Systems
Research output
:
Contribution to journal
›
Article
›
peer-review
12
Scopus citations
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Engineering
Entropy Generation
100%
Temperature Rise
100%
Fluid System
100%
Pipeline Fluid Flow
100%
Fluid
100%
Heating
100%
Simplifies
50%
Fluid Temperature
50%
Analytical Approach
50%
Copper Pipe
50%
Pipe Material
50%
Early Heating Period
50%
Heat Transfer
50%
Obtains
50%
Water
50%
Steel
50%
Heat Transfer Coefficient
50%
Chemical Engineering
Heating
100%
Entropy
100%
Temperature
50%
Copper
50%
Heat Transfer Coefficient
25%
Water
25%
Heat Transfer
25%
Material Science
Fluid
100%
Heat Transfer
40%
Temperature
40%
Copper
40%
Solid
40%
Liquid Interface
20%
Spring Steel
20%
Water
20%
Materials
20%