Thermal repellent properties of surface coating using silica

Lee, Y Y and Halim, M S and Aminudin, E and Guntor, N A (2017) Thermal repellent properties of surface coating using silica. In: IOP Conf. Series: Materials Science and Engineering.

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Official URL: doi:10.1088/1757-899X/271/1/012020

Abstract

Extensive land development in urban areas is completely altering the surface profile of human living environment. As cities growing rapidly, impervious building and paved surfaces are replacing the natural landscape. In the developing countries with tropical climate, large masses of building elements, such as brick wall and concrete members, absorb and store large amount of heat, which in turn radiate back to the surrounding air during the night time. This bubble of heat is known as urban heat island (UHI). The use of high albedo urban surfaces is an inexpensive measure that can reduce surrounded temperature. Thus, the main focus of this study is to investigate the ability of silica, SiO2, with high albedo value, to be used as a thermal-repelled surface coating for brick wall. Three different silica coatings were used, namely silicone resin, silicone wax and rain repellent and one exterior commercial paint (jota shield paint) that commercially available in the market were applied on small-scale brick wall models. An uncoated sample also had been fabricated as a control sample for comparison. These models were placed at the outdoor space for solar exposure. Outdoor environment measurement was carried out where the ambient temperature, surface temperature, relative humidity and UV reflectance were recorded. The effect of different type of surface coating on temperature variation of the surface brick wall and the thermal performance of coatings as potential of heat reduction for brick wall have been studied. Based on the results, model with silicone resin achieved the lowest surface temperature which indicated that SiO2 can be potentially used to reduce heat absorption on the brick wall and further retains indoor passive thermal comfortability.

Item Type:Conference or Workshop Item (Paper)
Subjects:Q Science > QD Chemistry
ID Code:10156
Deposited By:Pelajar Praktikal UiTM
Deposited On:13 Aug 2018 11:28
Last Modified:13 Aug 2018 11:28

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