LAPSE:2023.28535v1
Published Article
LAPSE:2023.28535v1
Heat Transfer Enhancement of Circular- and Petal- Shaped Double-Tube-Type Heat Exchangers by Triple Ones
April 12, 2023
Abstract
Conventional circular double or triple tube type heat exchanger, DHE or THE, is one of the compact heat exchangers; a large number of studies have been performed to improve their heat transfer performance. The authors demonstrated that a petal-shaped special DHE with a large wet perimeter yields a high heat transfer efficiency, η. In this study, the DHE with six or five petals-, five shallow petals-, and circular-inner tubes were used. To further improve the η of the DHE, a THE with a petal-shaped inner tube along with the middle and outer circular tubes were used. Hot water flowed through the inner tube and cold water flowed through the middle and outer tubes as a counter current flow. The heat transfer was approximately equal; however, the flow resistance (pressure loss) of the outer tube of the DHE could be decreased using the middle and outer tubes under the same amount of cold water as the DHE; consequently, the η could be improved. In addition, the effect of changing the flow path of the hot- and cold-water flows on the η was examined.
Conventional circular double or triple tube type heat exchanger, DHE or THE, is one of the compact heat exchangers; a large number of studies have been performed to improve their heat transfer performance. The authors demonstrated that a petal-shaped special DHE with a large wet perimeter yields a high heat transfer efficiency, η. In this study, the DHE with six or five petals-, five shallow petals-, and circular-inner tubes were used. To further improve the η of the DHE, a THE with a petal-shaped inner tube along with the middle and outer circular tubes were used. Hot water flowed through the inner tube and cold water flowed through the middle and outer tubes as a counter current flow. The heat transfer was approximately equal; however, the flow resistance (pressure loss) of the outer tube of the DHE could be decreased using the middle and outer tubes under the same amount of cold water as the DHE; consequently, the η could be improved. In addition, the effect of changing the flow path of the hot- and cold-water flows on the η was examined.
Record ID
Keywords
double and triple tube heat exchangers, heat transfer efficiency, heat transfer enhancement, large wet perimeter, petal-shaped tube
Subject
Suggested Citation
Shakouchi T, Yamamura K, Tsujimoto K, Ando T. Heat Transfer Enhancement of Circular- and Petal- Shaped Double-Tube-Type Heat Exchangers by Triple Ones. (2023). LAPSE:2023.28535v1
Author Affiliations
Shakouchi T: Graduate School of Engineering, Mie University, Kurimamachiya-cho 1577, Tsu-shi 514-8507, Japan [ORCID]
Yamamura K: Suzuki Motor Corporation, Hamamatsu-shi 432-8611, Japan
Tsujimoto K: Graduate School of Engineering, Mie University, Kurimamachiya-cho 1577, Tsu-shi 514-8507, Japan
Ando T: Graduate School of Engineering, Mie University, Kurimamachiya-cho 1577, Tsu-shi 514-8507, Japan
Yamamura K: Suzuki Motor Corporation, Hamamatsu-shi 432-8611, Japan
Tsujimoto K: Graduate School of Engineering, Mie University, Kurimamachiya-cho 1577, Tsu-shi 514-8507, Japan
Ando T: Graduate School of Engineering, Mie University, Kurimamachiya-cho 1577, Tsu-shi 514-8507, Japan
Journal Name
Energies
Volume
13
Issue
24
Article Number
E6590
Year
2020
Publication Date
2020-12-14
ISSN
1996-1073
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PII: en13246590, Publication Type: Journal Article
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LAPSE:2023.28535v1
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https://doi.org/10.3390/en13246590
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