Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO2 cycle

Xiangyang Xu; Ting Ma; Lei Li; Min Zeng; Yitung Chen; Yanping Huang; Qiuwang Wang

doi:10.1016/j.applthermaleng.2014.05.040

Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO₂ cycle

Xiangyang Xu
, Ting Ma
, Lei Li
, Min Zeng
, Yitung Chen
, Yanping Huang
, Qiuwang Wang

能源与动力工程学院

Xi'an Jiaotong University
University of Nevada, Las Vegas
Nuclear Power Institute of China

科研成果: 期刊稿件 › 文章 › 同行评审

233 引用（Scopus）

摘要

As a new type of discontinuous fin, airfoil fin (AFF) can bring a better thermal-hydraulic performance than Zigzag fin and S-shaped fin when applied to PCHE using supercritical CO₂ as a working fluid. In this study, the effects of AFF arrangements on heat transfer and flow resistance are investigated. The results show that a sparser staggered arrangement of fins can lead to a better thermal-hydraulic performance in an AFF PCHE and the flow resistance plays a major role in determining the overall performance. It concludes that reducing the flow resistance needs to be considered first in the optimal design of a PCHE using supercritical CO₂ as working fluid. Furthermore, a new fin structure (modified AFF) is proposed for flow resistance reduction and is proved to be better than the AFF.

源语言	英语
页（从-至）	867-875
页数	9
期刊	Applied Thermal Engineering
卷	70
期	1
DOI	https://doi.org/10.1016/j.applthermaleng.2014.05.040
出版状态	已出版 - 5 9月 2014

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10.1016/j.applthermaleng.2014.05.040

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title = "Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO2 cycle",

abstract = "As a new type of discontinuous fin, airfoil fin (AFF) can bring a better thermal-hydraulic performance than Zigzag fin and S-shaped fin when applied to PCHE using supercritical CO2 as a working fluid. In this study, the effects of AFF arrangements on heat transfer and flow resistance are investigated. The results show that a sparser staggered arrangement of fins can lead to a better thermal-hydraulic performance in an AFF PCHE and the flow resistance plays a major role in determining the overall performance. It concludes that reducing the flow resistance needs to be considered first in the optimal design of a PCHE using supercritical CO2 as working fluid. Furthermore, a new fin structure (modified AFF) is proposed for flow resistance reduction and is proved to be better than the AFF.",

keywords = "Airfoil fin, Printed circuit heat exchanger, Structure optimization, Thermal-hydraulic",

author = "Xiangyang Xu and Ting Ma and Lei Li and Min Zeng and Yitung Chen and Yanping Huang and Qiuwang Wang",

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T1 - Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO2 cycle

AU - Xu, Xiangyang

AU - Ma, Ting

AU - Li, Lei

AU - Zeng, Min

AU - Chen, Yitung

AU - Huang, Yanping

AU - Wang, Qiuwang

PY - 2014/9/5

Y1 - 2014/9/5

N2 - As a new type of discontinuous fin, airfoil fin (AFF) can bring a better thermal-hydraulic performance than Zigzag fin and S-shaped fin when applied to PCHE using supercritical CO2 as a working fluid. In this study, the effects of AFF arrangements on heat transfer and flow resistance are investigated. The results show that a sparser staggered arrangement of fins can lead to a better thermal-hydraulic performance in an AFF PCHE and the flow resistance plays a major role in determining the overall performance. It concludes that reducing the flow resistance needs to be considered first in the optimal design of a PCHE using supercritical CO2 as working fluid. Furthermore, a new fin structure (modified AFF) is proposed for flow resistance reduction and is proved to be better than the AFF.

AB - As a new type of discontinuous fin, airfoil fin (AFF) can bring a better thermal-hydraulic performance than Zigzag fin and S-shaped fin when applied to PCHE using supercritical CO2 as a working fluid. In this study, the effects of AFF arrangements on heat transfer and flow resistance are investigated. The results show that a sparser staggered arrangement of fins can lead to a better thermal-hydraulic performance in an AFF PCHE and the flow resistance plays a major role in determining the overall performance. It concludes that reducing the flow resistance needs to be considered first in the optimal design of a PCHE using supercritical CO2 as working fluid. Furthermore, a new fin structure (modified AFF) is proposed for flow resistance reduction and is proved to be better than the AFF.

KW - Airfoil fin

KW - Printed circuit heat exchanger

KW - Structure optimization

KW - Thermal-hydraulic

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DO - 10.1016/j.applthermaleng.2014.05.040

M3 - 文章

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SN - 1359-4311

VL - 70

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JO - Applied Thermal Engineering

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Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO2 cycle

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Optimization of fin arrangement and channel configuration in an airfoil fin PCHE for supercritical CO₂ cycle