Air-side heat transfer characteristics of flat plate finned-tube heat exchangers with large fin pitches under frosting conditions

Mooyeon Lee; Yonghan Kim; Hosung Lee; Yongchan Kim

doi:10.1016/j.ijheatmasstransfer.2010.02.047

Air-side heat transfer characteristics of flat plate finned-tube heat exchangers with large fin pitches under frosting conditions

Mooyeon Lee, Yonghan Kim, Hosung Lee, Yongchan Kim

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

60 Citations (Scopus)

Abstract

The air-side heat transfer characteristics of flat plate finned-tube heat exchangers were measured and analyzed by varying the fin pitch, number of tube rows, and tube alignment under frosting conditions. Two empirical correlations for predicting the j-factor were developed separately for the inline and the staggered tube alignment, respectively, as a function of the Reynolds number, Fourier number, number of tube rows, and dimensionless hydraulic diameter normalized by fin pitch. The average deviation of the predictions of the present correlations from the measured data was 1.31% for the inline tube alignment and 0.65% for the staggered tube alignment.

Original language	English
Pages (from-to)	2655-2661
Number of pages	7
Journal	International Journal of Heat and Mass Transfer
Volume	53
Issue number	13-14
DOIs	https://doi.org/10.1016/j.ijheatmasstransfer.2010.02.047
Publication status	Published - 2010 Jun

Keywords

Correlation
Finned-tube heat exchanger
Frost
Pressure drop
j-factor

ASJC Scopus subject areas

Condensed Matter Physics
Mechanical Engineering
Fluid Flow and Transfer Processes

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10.1016/j.ijheatmasstransfer.2010.02.047

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title = "Air-side heat transfer characteristics of flat plate finned-tube heat exchangers with large fin pitches under frosting conditions",

abstract = "The air-side heat transfer characteristics of flat plate finned-tube heat exchangers were measured and analyzed by varying the fin pitch, number of tube rows, and tube alignment under frosting conditions. Two empirical correlations for predicting the j-factor were developed separately for the inline and the staggered tube alignment, respectively, as a function of the Reynolds number, Fourier number, number of tube rows, and dimensionless hydraulic diameter normalized by fin pitch. The average deviation of the predictions of the present correlations from the measured data was 1.31% for the inline tube alignment and 0.65% for the staggered tube alignment.",

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AU - Lee, Mooyeon

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AU - Lee, Hosung

AU - Kim, Yongchan

PY - 2010/6

Y1 - 2010/6

N2 - The air-side heat transfer characteristics of flat plate finned-tube heat exchangers were measured and analyzed by varying the fin pitch, number of tube rows, and tube alignment under frosting conditions. Two empirical correlations for predicting the j-factor were developed separately for the inline and the staggered tube alignment, respectively, as a function of the Reynolds number, Fourier number, number of tube rows, and dimensionless hydraulic diameter normalized by fin pitch. The average deviation of the predictions of the present correlations from the measured data was 1.31% for the inline tube alignment and 0.65% for the staggered tube alignment.

AB - The air-side heat transfer characteristics of flat plate finned-tube heat exchangers were measured and analyzed by varying the fin pitch, number of tube rows, and tube alignment under frosting conditions. Two empirical correlations for predicting the j-factor were developed separately for the inline and the staggered tube alignment, respectively, as a function of the Reynolds number, Fourier number, number of tube rows, and dimensionless hydraulic diameter normalized by fin pitch. The average deviation of the predictions of the present correlations from the measured data was 1.31% for the inline tube alignment and 0.65% for the staggered tube alignment.

KW - Correlation

KW - Finned-tube heat exchanger

KW - Frost

KW - Pressure drop

KW - j-factor

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ER -

Air-side heat transfer characteristics of flat plate finned-tube heat exchangers with large fin pitches under frosting conditions

Abstract

Keywords

ASJC Scopus subject areas

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