Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger

Tang, Linghong; Du, Xueping; Pan, Jie; Sundén, Bengt

Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger

Mark

Tang, Linghong ^LU ; Du, Xueping ; Pan, Jie and Sundén, Bengt ^LU (2019) In International Journal of Heat and Mass Transfer 145.

Abstract: In this study, the influence of various air inlet angles on the heat transfer and flow friction characteristics of a 2-row plain finned oval tube heat exchanger is analyzed by experimental and numerical methods. The experimental results show that an air inlet angle 45° provides the best heat transfer performance, and an air inlet angle 90° provides the smallest pressure drop, while an air inlet angle 30° provides the worst heat transfer performance associated with the largest pressure drop. The 3-D numerical simulation results indicate that with the decrease of the air inlet angle, the uniformity of the air velocity distribution in the z-direction of the heat exchanger becomes worse. The heat transfer characteristics at different air... (More); In this study, the influence of various air inlet angles on the heat transfer and flow friction characteristics of a 2-row plain finned oval tube heat exchanger is analyzed by experimental and numerical methods. The experimental results show that an air inlet angle 45° provides the best heat transfer performance, and an air inlet angle 90° provides the smallest pressure drop, while an air inlet angle 30° provides the worst heat transfer performance associated with the largest pressure drop. The 3-D numerical simulation results indicate that with the decrease of the air inlet angle, the uniformity of the air velocity distribution in the z-direction of the heat exchanger becomes worse. The heat transfer characteristics at different air inlet angles are analyzed from the prospective of the field synergy principle and the effect of the air velocity distribution uniformity. The overall heat transfer performance is also evaluated by the JF factor under the same air mass flow rate. The results show that the air inlet angle 45° offers the best overall heat transfer performance, next is the air inlet angle 60°, while the air inlet angle 30° has the worst overall heat transfer performance.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/34894da5-7b25-4bf7-b999-5040eee44f80

author

Tang, Linghong ^LU ; Du, Xueping ; Pan, Jie and Sundén, Bengt ^LU

organization

Heat Transfer

publishing date

2019

type

Contribution to journal

publication status

published

subject

Energy Engineering

keywords

Air cooling, Air inlet angle, Finned oval tube heat exchanger, Heat transfer and flow friction characteristics

in

International Journal of Heat and Mass Transfer

volume

145

article number

118702

publisher

Pergamon Press Ltd.

external identifiers

scopus:85072220296

ISSN

0017-9310

DOI

10.1016/j.ijheatmasstransfer.2019.118702

language

English

LU publication?

yes

id

34894da5-7b25-4bf7-b999-5040eee44f80

date added to LUP

2019-09-27 14:24:34

date last changed

2022-04-18 17:53:08

@article{34894da5-7b25-4bf7-b999-5040eee44f80,
  abstract     = {{<p>In this study, the influence of various air inlet angles on the heat transfer and flow friction characteristics of a 2-row plain finned oval tube heat exchanger is analyzed by experimental and numerical methods. The experimental results show that an air inlet angle 45° provides the best heat transfer performance, and an air inlet angle 90° provides the smallest pressure drop, while an air inlet angle 30° provides the worst heat transfer performance associated with the largest pressure drop. The 3-D numerical simulation results indicate that with the decrease of the air inlet angle, the uniformity of the air velocity distribution in the z-direction of the heat exchanger becomes worse. The heat transfer characteristics at different air inlet angles are analyzed from the prospective of the field synergy principle and the effect of the air velocity distribution uniformity. The overall heat transfer performance is also evaluated by the JF factor under the same air mass flow rate. The results show that the air inlet angle 45° offers the best overall heat transfer performance, next is the air inlet angle 60°, while the air inlet angle 30° has the worst overall heat transfer performance.</p>}},
  author       = {{Tang, Linghong and Du, Xueping and Pan, Jie and Sundén, Bengt}},
  issn         = {{0017-9310}},
  keywords     = {{Air cooling; Air inlet angle; Finned oval tube heat exchanger; Heat transfer and flow friction characteristics}},
  language     = {{eng}},
  publisher    = {{Pergamon Press Ltd.}},
  series       = {{International Journal of Heat and Mass Transfer}},
  title        = {{Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger}},
  url          = {{http://dx.doi.org/10.1016/j.ijheatmasstransfer.2019.118702}},
  doi          = {{10.1016/j.ijheatmasstransfer.2019.118702}},
  volume       = {{145}},
  year         = {{2019}},
}

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Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger