Performance enhancement mechanisms and optimization of multi-pass parallel flow condensers with liquid-vapor separation

Article

Pu, J.H., Hua, N., Jian, X., Chen, Y., Li, Y., Yang, T. and Wang, H.S. 2025. Performance enhancement mechanisms and optimization of multi-pass parallel flow condensers with liquid-vapor separation. Case Studies in Thermal Engineering. https://doi.org/10.1016/j.csite.2025.106120
TypeArticle
TitlePerformance enhancement mechanisms and optimization of multi-pass parallel flow condensers with liquid-vapor separation
AuthorsPu, J.H., Hua, N., Jian, X., Chen, Y., Li, Y., Yang, T. and Wang, H.S.
Abstract

This study employed a distributed-parameter model developed by the authors to investigate the mechanisms of condensation heat transfer enhancement using liquid vapor separation (LS) in multi-pass parallel flow condensers (MPFCs). Additionally, tube pass arrangements for MPFCs with LS were optimized. Simulations characterized relationships among refrigerant flow rate, vapor quality, flow patterns, heat-transfer coefficient and pressure drop at tube level, along with heat-transfer coefficient and tube wall temperature distributions at the segment level. An entropy analysis based on the second law of thermodynamics quantified contributions from heat transfer and pressure drop. The results demonstrate that introducing LS leads to (1) a 9.1% increase in the average heat-transfer coefficient, (2) a 50.4% reduction in pressure drop, (3) similar entropy generation numbers due to heat transfer for both MPFC and MPFC-LS, (4) significantly higher entropy generation 1 numbers due to pressure drop in the last two tube passes, and (5) a 51.4% lower average entropy generation number for MPFC-LS compared to MPFC. Compared to a baseline serpentine condenser, MPFCs-LS reduced pressure drop by 84% to 98% while maintaining nearly the same heat transfer rate, resulting in an overall performance improvement of 5% to 9%. The optimal tube-pass arrangement for MPFCs-LS was identified as 3-3-2-2-2-2-2-1-1-1-1.

KeywordsCondenser; Liquid-vapor separation; Heat transfer; Pressure drop; Entropy generation; Numerical simulation
Sustainable Development Goals9 Industry, innovation and infrastructure
Middlesex University ThemeSustainability
Research GroupThermal Engineering
PublisherElsevier
JournalCase Studies in Thermal Engineering
ISSN
Electronic2214-157X
Publication dates
Online15 Apr 2025
Publication process dates
Submitted18 Dec 2024
Accepted13 Apr 2025
Deposited17 Apr 2025
Output statusAccepted
Accepted author manuscript
File Access Level
Open
Digital Object Identifier (DOI)https://doi.org/10.1016/j.csite.2025.106120
LanguageEnglish
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