Thermal-hydraulic characteristics of a PCHE with zigzag microchannel for hypersonic precooled aero-engines: an experimental study

Zhengping Zou; Yifan Wang; Hui Li; Yiming Chen; Lichao Yao; Huan Li; Huoxing Liu

doi:10.1080/08916152.2022.2086323

Thermal-hydraulic characteristics of a PCHE with zigzag microchannel for hypersonic precooled aero-engines: an experimental study

Zhengping Zou
, Yifan Wang
, Hui Li
, Yiming Chen^*
, Lichao Yao
, Huan Li
, Huoxing Liu

^*Corresponding author for this work

Beihang University

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The PCHE has been recognized as a promising heat exchanger for hypersonic precooled aero-engines due to its superior thermal performance, high compactness and robustness. The present work focuses on the experimental thermal-hydraulic performance study of a novel zigzag microchannel PCHE. The results indicate that the pressure loss caused by friction is the main source. The Fanning correlation proposed by Moisseysev shows more precise prediction results, whose prediction deviations are within 10.0%. The measured Nu is markedly 1.24 ~ 1.94 times higher than that of the straight channel and a new Nu correlation was developed and the maximum deviations do not exceed 5%.

Original language	English
Pages (from-to)	1012-1033
Number of pages	22
Journal	Experimental Heat Transfer
Volume	36
Issue number	7
DOIs	https://doi.org/10.1080/08916152.2022.2086323
State	Published - 2023

Keywords

PCHE
hypersonic precooled engines
microchannel heat exchanger
paralleled helium cycle
zigzag channels

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10.1080/08916152.2022.2086323

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title = "Thermal-hydraulic characteristics of a PCHE with zigzag microchannel for hypersonic precooled aero-engines: an experimental study",

abstract = "The PCHE has been recognized as a promising heat exchanger for hypersonic precooled aero-engines due to its superior thermal performance, high compactness and robustness. The present work focuses on the experimental thermal-hydraulic performance study of a novel zigzag microchannel PCHE. The results indicate that the pressure loss caused by friction is the main source. The Fanning correlation proposed by Moisseysev shows more precise prediction results, whose prediction deviations are within 10.0\%. The measured Nu is markedly 1.24 \textasciitilde{} 1.94 times higher than that of the straight channel and a new Nu correlation was developed and the maximum deviations do not exceed 5\%.",

keywords = "PCHE, hypersonic precooled engines, microchannel heat exchanger, paralleled helium cycle, zigzag channels",

author = "Zhengping Zou and Yifan Wang and Hui Li and Yiming Chen and Lichao Yao and Huan Li and Huoxing Liu",

note = "Publisher Copyright: {\textcopyright} 2022 Taylor \& Francis.",

year = "2023",

doi = "10.1080/08916152.2022.2086323",

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TY - JOUR

T1 - Thermal-hydraulic characteristics of a PCHE with zigzag microchannel for hypersonic precooled aero-engines

T2 - an experimental study

AU - Zou, Zhengping

AU - Wang, Yifan

AU - Li, Hui

AU - Chen, Yiming

AU - Yao, Lichao

AU - Li, Huan

AU - Liu, Huoxing

PY - 2023

Y1 - 2023

N2 - The PCHE has been recognized as a promising heat exchanger for hypersonic precooled aero-engines due to its superior thermal performance, high compactness and robustness. The present work focuses on the experimental thermal-hydraulic performance study of a novel zigzag microchannel PCHE. The results indicate that the pressure loss caused by friction is the main source. The Fanning correlation proposed by Moisseysev shows more precise prediction results, whose prediction deviations are within 10.0%. The measured Nu is markedly 1.24 ~ 1.94 times higher than that of the straight channel and a new Nu correlation was developed and the maximum deviations do not exceed 5%.

AB - The PCHE has been recognized as a promising heat exchanger for hypersonic precooled aero-engines due to its superior thermal performance, high compactness and robustness. The present work focuses on the experimental thermal-hydraulic performance study of a novel zigzag microchannel PCHE. The results indicate that the pressure loss caused by friction is the main source. The Fanning correlation proposed by Moisseysev shows more precise prediction results, whose prediction deviations are within 10.0%. The measured Nu is markedly 1.24 ~ 1.94 times higher than that of the straight channel and a new Nu correlation was developed and the maximum deviations do not exceed 5%.

KW - PCHE

KW - hypersonic precooled engines

KW - microchannel heat exchanger

KW - paralleled helium cycle

KW - zigzag channels

UR - https://www.scopus.com/pages/publications/85132923318

U2 - 10.1080/08916152.2022.2086323

DO - 10.1080/08916152.2022.2086323

M3 - 文章

AN - SCOPUS:85132923318

SN - 0891-6152

VL - 36

SP - 1012

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JO - Experimental Heat Transfer

JF - Experimental Heat Transfer

IS - 7

ER -

Thermal-hydraulic characteristics of a PCHE with zigzag microchannel for hypersonic precooled aero-engines: an experimental study

Abstract

Keywords

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