Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement

Aggregates; Asphalt; Coatings; Design of experiments; Infrared devices; Plating; Porcelain; Reflection; Surface properties; Temperature measurement; Environmental problems; High-energy absorption; Near infrared region; Reflectance values; Surface reflectance; Surface temperature measurement; Surface...

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Main Authors: Anting N., Din M.F.M., Iwao K., Ponraj M., Siang A.J.L.M., Yong L.Y., Prasetijo J.
Other Authors: 57200614972
Format: Article
Published: Elsevier Ltd 2023
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spelling my.uniten.dspace-242332023-05-29T14:57:17Z Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement Anting N. Din M.F.M. Iwao K. Ponraj M. Siang A.J.L.M. Yong L.Y. Prasetijo J. 57200614972 13806942700 55929412900 55336609200 57214156187 56037272500 36562293000 Aggregates; Asphalt; Coatings; Design of experiments; Infrared devices; Plating; Porcelain; Reflection; Surface properties; Temperature measurement; Environmental problems; High-energy absorption; Near infrared region; Reflectance values; Surface reflectance; Surface temperature measurement; Surface temperatures; Urban heat island; Atmospheric temperature The heat generated from dark color asphalt, which is low in surface reflectance mainly contributes to the environmental problem called as urban heat island. Low reflectance at high energy wavelength of sunlight, such as visible light and infrared region will cause the pavement to have high surface temperature, due to high energy absorption from solar radiation. This paper presents the optimization result of cool pavement coating material based on selected tiles aggregate to achieve high near infrared region (NIR) reflectance. Three types of waste tiles were used in this study which are Full Body Porcelain (FBP), Monoporosa (MP) and Porcelain Glaze (PG). All the tiles were prepared in the form of aggregates. A linear model was formed as a function of mix tiles fraction and the analysis of ANOVA suggest that the linear term used for this model is significant. Diagnostics of the model was evaluated using box-cox plot, normal plot of residuals and optimized to predict the mix of the different type of tiles to produce the highest surface NIR reflectance value. The first solution suggests that 100% of MP tile can provide NIR reflectance of 0.53, whereas the second solution suggest that the combination of 50% FBP and 50% of MP tile aggregates could give NIR reflectance value of about 0.51. Experimental work on measuring surface temperature found that optimized samples, M1 and M2 with high NIR reflectance could significantly reduce surface temperature of asphalt pavement at range of 4.1 �C�9.6 �C. In conclusion, the results of optimization is reliable and this method able to provide significant information on optimizing mix of tiles material as to achieve high NIR reflectance value for coating materials of cool-pavement. � 2017 Elsevier B.V. Final 2023-05-29T06:57:17Z 2023-05-29T06:57:17Z 2018 Article 10.1016/j.enbuild.2017.10.001 2-s2.0-85031735630 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85031735630&doi=10.1016%2fj.enbuild.2017.10.001&partnerID=40&md5=5bef4f5955a9d7f7d15d6f8d71d87164 https://irepository.uniten.edu.my/handle/123456789/24233 158 172 180 All Open Access, Green Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Aggregates; Asphalt; Coatings; Design of experiments; Infrared devices; Plating; Porcelain; Reflection; Surface properties; Temperature measurement; Environmental problems; High-energy absorption; Near infrared region; Reflectance values; Surface reflectance; Surface temperature measurement; Surface temperatures; Urban heat island; Atmospheric temperature
author2 57200614972
author_facet 57200614972
Anting N.
Din M.F.M.
Iwao K.
Ponraj M.
Siang A.J.L.M.
Yong L.Y.
Prasetijo J.
format Article
author Anting N.
Din M.F.M.
Iwao K.
Ponraj M.
Siang A.J.L.M.
Yong L.Y.
Prasetijo J.
spellingShingle Anting N.
Din M.F.M.
Iwao K.
Ponraj M.
Siang A.J.L.M.
Yong L.Y.
Prasetijo J.
Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
author_sort Anting N.
title Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
title_short Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
title_full Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
title_fullStr Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
title_full_unstemmed Optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
title_sort optimizing of near infrared region reflectance of mix-waste tile aggregate as coating material for cool pavement with surface temperature measurement
publisher Elsevier Ltd
publishDate 2023
_version_ 1806426024653619200
score 13.211869