TY - JOUR TI - Performance evaluation of fabrics for evaporative cooling applications AU - Abada, D. AU - Maalouf, C. AU - Sotehi, O. AU - Rouag-Saffidine, D. AU - Polidori, G. AU - Boudjabi, A. F. AU - Derghout, Z. T2 - Energy and Buildings AB - Due to the ever-growing demand for air-conditioning to bring the indoor air temperature to a comfortable level despite the unreasonable electricity consumption, research is more oriented towards techniques in connection with new methods enabling more energy savings and less adverse environmental impacts. Dew point evaporative cooling systems hold among the most promising. Their ability to use the evaporation of water to absorb heat from the air in order to lower its temperature below its wet bulb level without adding humidity, is an extremely low-energy and eco-friendly cooling principle. The properties of the material used in the construction of the wet channel surface in an evaporative cooler, i.e, its moisture wicking ability, diffusivity and evaporation capacity, can alter cooling efficiency and performance considerably. The irregular fibres help to divert moisture and enlarge the wet area, thus promoting evaporation. A measuring device was mounted to test the capillary rise of evaporative fabrics, which is one of the techniques used to assess the liquid moisture transmission performance of fabrics. A variety of materials (fabrics) woven from different types of fibres have been experimentally tested and compared to Kraft paper, which is commonly used as a wet surface medium in evaporative cooling systems. The wicking rate of fabrics obtained from the test device correlated well with the NF EN ISO 9073-6. Consequently, the test device clearly demonstrated differences between the fabrics used in the study, and can be used to determine vertical wicking behaviour of fabrics. Most textile fabrics have been found to have superior properties and qualities in terms of moisture wicking ability than the Kraft Paper. Also, that the type of weaving and the compactness of the fabric improved the capillary rise. Compared to Kraft paper, the absorbency of some fabrics has been found 160% to 355% higher. An estimation evaluation regarding both moistures transfer and mechanical properties revealed that two of the fabrics were the most suitable for evaporative cooling applications. DA - 2022/07/01/ PY - 2022 DO - 10.1016/j.enbuild.2022.112120 DP - ScienceDirect VL - 266 SP - 112120 J2 - Energy and Buildings LA - en SN - 0378-7788 UR - https://www.sciencedirect.com/science/article/pii/S0378778822002912 Y2 - 2022/05/30/14:43:45 KW - Capillary height KW - Diffusivity and evaporation aptitude KW - Evaporative cooling KW - Hydrophilic fabric KW - Vertical wicking KW - Water absorption ER -