Technological development of evaporative cooling systems and its integration with air dehumidification processes: A review

[Display omitted] •The principle and thermal performance of various evaporative coolers are presented.•Discussion on various dehumidification techniques for air conditioning systems.•Integration of dehumidification systems with evaporative cooling system.•Energy saving potential of enhanced evaporat...

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Published in:Energy and buildings 2023-03, Vol.283, p.112805, Article 112805
Main Authors: Abdullah, Shekh, Zubir, Mohd Nashrul Bin Mohd, Muhamad, Mohd Ridha Bin, Newaz, Kazi Md Salim, Öztop, Hakan F., Alam, Md Shadab, Shaikh, Kaleemullah
Format: Article
Language:English
Subjects:
Desiccant dehumidification
Enhanced evaporative cooling system
Evaporative cooling system
Membrane dehumidification
Thermal comfort
Vapor compression system
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Summary:[Display omitted] •The principle and thermal performance of various evaporative coolers are presented.•Discussion on various dehumidification techniques for air conditioning systems.•Integration of dehumidification systems with evaporative cooling system.•Energy saving potential of enhanced evaporative cooling system.•Potential alternative of vapor compression system to achieve thermal comfort. Internal space cooling technology is pushing toward promoting alternatives from conventional vapor compression systems to mitigate global warming. Many innovative cooling systems are currently focusing on Research and development (R&D) and commercialization. An evaporative cooling system is one of the possible solutions for vapor compression systems. Despite showing a promising alternative to vapor compression systems, their market penetration is insignificant in society. This stems from the challenges inherent within its operation in diverse climate conditions. In this critical review, various evaporative cooling systems along with their recent developments, were presented and discussed. In search of best outcome and limitation of evaporative cooling systems, a comparison of the performance of selected evaporative cooling system were discussed further. The current review also encapsulates the fundamentals and working principles of various dehumidification systems used in the industrial, residential, and agricultural sectors. Then, the solid and liquid desiccant dehumidification systems were further explored, and their effects on the evaporative cooling system were analyzed. Finally, the liquid desiccant and membrane dehumidification systems were comprehensibly reviewed with their effects on the evaporative cooling system. Based on the energy-saving potential analysis, it was found that independent dehumidification before cooling is an effective method to improve the efficacy of the evaporative cooling system in comparison to the conventional approach at different outdoor conditions. Also, an enhanced evaporative cooling system was found to be a promising replacement for vapor compression system. To provide thermal comfort in hot and humid conditions, membrane dehumidification with a dew point evaporative cooling system shows promise as a substitute air-cooling technology with reduced power usage.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2023.112805