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Sélection de matériaux humides pour le pré-refroidissement de l’air entrant dans des tours de refroidissement sèches à tirage naturel.

Selection of wetted media for pre-cooling of air entering natural draft dry cooling towers.

Auteurs : HE S., XU Y., ZHANG G., et al.

Type d'article : Article

Résumé

The performance of natural draft dry cooling towers (NDDCTs) can be improved by wetted-medium evaporative pre-cooling. However, the pre-cooling benefit is season dependent and is significantly affected by wetted media. To further investigate the effect of wetted medium type on pre-cooling performance, the current study simulates a pre-cooled NDDCT using two typical types of wetted media, i.e., film (Cellulose7060 and PVC1200) and trickle (Trickle125 and Trickle100). A MATLAB program was developed and was validated against published data. The model was then used to carry out case study of a 120 m-high NDDCT pre-cooled using the selected wetted media with fixed thickness of 300 mm. Both the medium performance and pre-cooled NDDCT performance were compared to recommend the characteristics of wetted media promising for evaporative pre-cooling. Simulation finds that the media with high or low cooling efficiencies and pressure drops are not promising for the studied pre-cooling case while those media with middle cooling efficiencies and pressure drops intend to produce much performance enhancement and Cellulose7060 is a representative of such kind of medium. For the 120 m-high NDDCT, the wetted-medium pre-cooling can raise the heat rejection rate of the tower without pre-cooling from 45 MW to 92 MW, 76 MW, 68 MW and 65 MW by Cellulose7060, PVC1200, Trickle125 and Trickle100, respectively at ambient temperature of 50 °C and humidity of 20%.

Détails

  • Titre original : Selection of wetted media for pre-cooling of air entering natural draft dry cooling towers.
  • Identifiant de la fiche : 30021091
  • Langues : Anglais
  • Source : Applied Thermal Engineering - vol. 114
  • Date d'édition : 05/03/2017
  • DOI : http://dx.doi.org/10.1016/j.applthermaleng.2016.11.179

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