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Effects of Experimental Parameters on Condensation Heat Transfer in Plate Fin Heat Exchanger

Author

Listed:
  • Sung-Hoon Seol

    (Department of Refrigeration and Air-Conditioning Engineering, College of Engineering, Pukyong National University, Busan 48513, Korea)

  • Sun-Geun Lee

    (Department of Refrigeration and Air-Conditioning Engineering, College of Engineering, Pukyong National University, Busan 48513, Korea)

  • Chang-Hyo Son

    (Department of Refrigeration and Air-Conditioning Engineering, College of Engineering, Pukyong National University, Busan 48513, Korea)

  • Ji-Hoon Yoon

    (Department of Refrigeration and Air-Conditioning Engineering, College of Engineering, Pukyong National University, Busan 48513, Korea)

  • In-Seob Eom

    (R&D Center, DongHwa Entec, Busan 46742, Korea)

  • Young-Min Park

    (R&D Center, DongHwa Entec, Busan 46742, Korea)

  • Jung-In Yoon

    (Department of Refrigeration and Air-Conditioning Engineering, College of Engineering, Pukyong National University, Busan 48513, Korea)

Abstract

This study aims to provide an experimental investigation and comparison of the condensation heat transfer characteristics in a plate–fin heat exchanger (PFHE). The heat flux, mass flux, and saturation pressure were adjusted as experimental parameters to verify the effects on the condensation heat transfer. In addition, condensation heat transfer correlation of two-stream PFHEs was provided based on the experimental data for utilization as a design reference for the heat exchanger. The turbulence is the most influential in heat transfer. One of the ways to foster turbulence is to increase shear stress. The higher flow velocity results in the higher shear stress. That was why increasing mass flux or the flow with higher vapor quality showed the higher heat transfer coefficient (HTC). Refrigerant properties such as viscosity and specific volume of vapor changed according to the saturation pressure. It is expected they affect the degree of turbulence too in similar manners. The mass flux was more influential than the heat flux and saturation pressure. Thus, the equivalent mass flux of the refrigerant is dominant in the derived correlation model. The average difference between experimental and calculated HTC from correlations was about 6.5%. Multi-stream PFHE comprises an additional heat transfer surface, which implies a more active droplet formation. The average pressure drop in the multi-stream is 15% larger than that of the two-stream.

Suggested Citation

  • Sung-Hoon Seol & Sun-Geun Lee & Chang-Hyo Son & Ji-Hoon Yoon & In-Seob Eom & Young-Min Park & Jung-In Yoon, 2021. "Effects of Experimental Parameters on Condensation Heat Transfer in Plate Fin Heat Exchanger," Energies, MDPI, vol. 14(22), pages 1-18, November.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:22:p:7681-:d:680775
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    Cited by:

    1. Yongshi Feng & Xin Wu & Cai Liang & Zhongping Sun, 2022. "A Convenient Method for the Accurate Calculation of Fin Efficiency of H-Type Fins Based on Linear Nomograms and Fitting Formulae," Energies, MDPI, vol. 15(2), pages 1-14, January.

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