A Spatiotemporal Indirect Evaporative Cooler Enabled by Transiently Interceding Water Mist

Muhammad Wakil Shahzad, Jie Lin, Ben Bin Xu, Laurent Dala, Chen Qian, Muhammad Burhan, Muhammad Sultan, William Worek, Kim Choon Ng

Research output: Contribution to journalArticlepeer-review

47 Citations (Scopus)
14 Downloads (Pure)

Abstract

The building sector consumes around half of the global energy produced and air-conditioning processes guzzle over 55% of building sector energy. The conventional refrigerant-based chillers, covering over 90% of the current cooling market, are not only energy-intensive but also have high ozone depletion and global warming potentials. Indirect evaporative coolers were introduced but they were difficult to commercialize due to their practical lower achievable temperature limits. All existing indirect evaporative coolers use hydrophilic interface to provide wet surfaces for evaporative potential. These hydrophilic surfaces not only increase heat transfer resistance but also provide excellent conditions, wet and damp surface, for mold formation. The treatment of mold is almost impossible as the height of the channel is only 3–5 mm and the fungus can be dangerous to health. Therefore, we proposed an innovative indirect evaporative cooling cycle in which there are no hydrophilic surfaces inside the system. The humidification of the working air is carried out before it is introduced into the wet channel. Also, the interface between dry and wet channel is only a thin aluminium foil that boosts heat transfer from supply air to working air in the transverse direction. A generic cell of 1800 mm long and 280 mm wide can produce 182.5 W cooling capacity. The measured coefficient of performance and effectiveness are 45 and 80% respectively for sensible cooling. This basic information of the proposed innovative indirect evaporative cooling system can be used to design a commercial unit as the total capacity is based on number of generic cells.

Original languageEnglish
Article number119352
JournalEnergy
Volume217
Early online date24 Nov 2020
DOIs
Publication statusPublished - 15 Feb 2021

Keywords

  • Air-conditioning
  • Chillers
  • Coefficient of performance
  • Evaporative cooler

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