Study of the performance of an adiabatic cooling pad in an air cooler system

Authors

  • J. López Author
  • F. Sánchez Author
  • I. Arocas Author
  • A. Viedma Author
  • B. Zamora Author
  • P. Martínez Author
  • M. Lucas Author
  • M. Hernández Author
  • A. S. Káiser Author
  • J. Ruiz Author

DOI:

https://doi.org/10.24084/repqj14.444

Keywords:

Computational Fluid Dynamics (CFD), Evaporation, Experimental, Analytics, Discrete Phase Model (DPM)

Abstract

Adiabatic cooling pads are mostly used as a previous step for cooling systems, they cause the raise of the cooling system global efficiency. In this study, several types of pads have been analysed regarding on its compactness and thickness. The problem is addressed from an experimental, analytical and numerical point of view.. The validation of the temperature drop and cooling efficiency of the cooling pad numerical model is the main objective of this paper, and, in order to get this goal, Discrete Phase Model (DPM) of ANSYS Fluent software is used to calculate how water droplets, injected over the pad to cool the air, evaporate and how the continuous phase affect them. The results of this paper, focused to be a part of a complete cooling system analysis carried out by the research group, show the performance of an adiabatic cooling pad varying its width and compactness.

Author Biographies

  • J. López

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain)

  • F. Sánchez

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain)

  • I. Arocas

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain)

  • A. Viedma

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain) 

  • B. Zamora

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain)

  • P. Martínez

    Department of Mechanic Engineering and Energy 
    Miguel Hernández University 
    03202 Elche (Spain) 

  • M. Lucas

    Department of Mechanic Engineering and Energy 
    Miguel Hernández University 
    03202 Elche (Spain)

  • M. Hernández

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain) 

  • A. S. Káiser

    Department of Thermal and Fluids Engineering 
    E.T.S.I.I., Polytechnic University of Cartagena 
    Campus La Muralla, 30202 Cartagena (Spain)

  • J. Ruiz

    Department of Mechanic Engineering and Energy 
    Miguel Hernández University 
    03202 Elche (Spain) 

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Published

2024-01-16

Issue

Vol. 14 No. 6 (2016)

Section

Articles