Local, transient heat transfer measurements for flow boiling in a microchannel with a pin fin

Local, transient heat transfer measurements for flow boiling in a microchannel with a pin fin

•Local, transient flow boiling in a microchannel with a pin fin was experimentally studied.•The temperature measurements were synchronized with high-speed images to analyze boiling event.•Local heat transfer coefficient was calculated and compared with available models in the literature. Flow boilin...

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Veröffentlicht in:International journal of heat and mass transfer 2019-05, Vol.134, p.377-387
Hauptverfasser: Wang, Yingying, Shin, Jeong-heon, Woodcock, Corey, Yu, Xiangfei, Peles, Yoav
Format: Artikel
Sprache:eng
Schlagworte:
Boiling
Dry-out
Flow boiling
Heat transfer coefficients
Local heat transfer coefficient
Local temperature measurements
Microchannel
Microchannels
Pin fin
Pin fins
Resistance temperature detectors
Slug flow
Temperature
Temperature measurement
Transient heat transfer
Two phase flow
Variation
Wetting
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container_end_page 387
container_issue
container_start_page 377
container_title International journal of heat and mass transfer
container_volume 134
creator Wang, Yingying
Shin, Jeong-heon
Woodcock, Corey
Yu, Xiangfei
Peles, Yoav
description •Local, transient flow boiling in a microchannel with a pin fin was experimentally studied.•The temperature measurements were synchronized with high-speed images to analyze boiling event.•Local heat transfer coefficient was calculated and compared with available models in the literature. Flow boiling in a microchannel with a pin fin was experimentally studied. Micro resistance temperature detectors (RTD) array was integrated inside a microchannel to enable local transient temperature measurement. The temperature measurements were synchronized with high-speed images to analyze boiling event and the corresponding transient temperature characteristics. Three distinct two-phase flow regimes were observed: bubbly flow, slug flow, and attached vapor cavity. Cyclic temperature fluctuations were observed during slug flow and it was related to local periodic vapor slug activities. In a single cycle, three distinct stages were observed: liquid wetting, film evaporation, and local dry out. These three processes were decomposed to calculate local heat transfer coefficient based on the experimental observation, as hx,y=τlhl+τfilmhfilm+τvhv and the result was compared with available models in the literature.
doi_str_mv 10.1016/j.ijheatmasstransfer.2019.01.048
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subjects Boiling
Dry-out
Flow boiling
Heat transfer coefficients
Local heat transfer coefficient
Local temperature measurements
Microchannel
Microchannels
Pin fin
Pin fins
Resistance temperature detectors
Slug flow
Temperature
Temperature measurement
Transient heat transfer
Two phase flow
Variation
Wetting
title Local, transient heat transfer measurements for flow boiling in a microchannel with a pin fin
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