Silicon particles/black paint coating for performance enhancement of solar absorbers

The availability of fresh drinkable water and water security is becoming a global challenge for sustainable development. In this regard, solar stills, due to their ease in operation, installation, and utilization of direct sunlight (as thermal energy), promise a better and sustainable future technol...

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Main Authors: Han, Shwe Sin, Ghafoor, Usman, Saeed, Tareq, Elahi, Hassan, Masud, Usman, Kumar, Laveet, Selvaraj, Jeyraj, Ahmad, Muhammad Shakeel
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Published: MDPI 2021
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Online Access:http://eprints.um.edu.my/34089/
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Institution: Universiti Malaya
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spelling my.um.eprints.340892022-06-17T08:19:24Z http://eprints.um.edu.my/34089/ Silicon particles/black paint coating for performance enhancement of solar absorbers Han, Shwe Sin Ghafoor, Usman Saeed, Tareq Elahi, Hassan Masud, Usman Kumar, Laveet Selvaraj, Jeyraj Ahmad, Muhammad Shakeel GE Environmental Sciences The availability of fresh drinkable water and water security is becoming a global challenge for sustainable development. In this regard, solar stills, due to their ease in operation, installation, and utilization of direct sunlight (as thermal energy), promise a better and sustainable future technology for water security in urban and remote areas. The major issue is its low distillate productivity, which limits its widespread commercialization. In this study, the effect of silicon (Si) particles is examined to improve the absorber surface temperature of the solar still absorber plate, which is the major component for increased distillate yield. Various weight percentages of Si particles were introduced in paint and coated on the aluminum absorber surface. Extensive indoor (using a self-made halogen light-based solar simulator) and outdoor testing were conducted to optimize the concentration. The coatings with 15 wt % Si in the paint exhibited the highest increase in temperature, namely, 98.5 & DEG;C under indoor controlled conditions at 1000 W/m(2) irradiation, which is 65.81% higher than a bare aluminum plate and 37.09% higher compared to a black paint-coated aluminum plate. On the other hand, coatings with 10 wt % Si reached up to 73.2 & DEG;C under uncontrolled outdoor conditions compared to 68.8 & DEG;C for the black paint-coated aluminum plate. A further increase in concentration did not improve the surface temperature, which was due to an excessive increase in thermal conductivity and high convective heat losses. MDPI 2021-11 Article PeerReviewed Han, Shwe Sin and Ghafoor, Usman and Saeed, Tareq and Elahi, Hassan and Masud, Usman and Kumar, Laveet and Selvaraj, Jeyraj and Ahmad, Muhammad Shakeel (2021) Silicon particles/black paint coating for performance enhancement of solar absorbers. Energies, 14 (21). ISSN 1996-1073, DOI https://doi.org/10.3390/en14217140 <https://doi.org/10.3390/en14217140>. 10.3390/en14217140
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic GE Environmental Sciences
spellingShingle GE Environmental Sciences
Han, Shwe Sin
Ghafoor, Usman
Saeed, Tareq
Elahi, Hassan
Masud, Usman
Kumar, Laveet
Selvaraj, Jeyraj
Ahmad, Muhammad Shakeel
Silicon particles/black paint coating for performance enhancement of solar absorbers
description The availability of fresh drinkable water and water security is becoming a global challenge for sustainable development. In this regard, solar stills, due to their ease in operation, installation, and utilization of direct sunlight (as thermal energy), promise a better and sustainable future technology for water security in urban and remote areas. The major issue is its low distillate productivity, which limits its widespread commercialization. In this study, the effect of silicon (Si) particles is examined to improve the absorber surface temperature of the solar still absorber plate, which is the major component for increased distillate yield. Various weight percentages of Si particles were introduced in paint and coated on the aluminum absorber surface. Extensive indoor (using a self-made halogen light-based solar simulator) and outdoor testing were conducted to optimize the concentration. The coatings with 15 wt % Si in the paint exhibited the highest increase in temperature, namely, 98.5 & DEG;C under indoor controlled conditions at 1000 W/m(2) irradiation, which is 65.81% higher than a bare aluminum plate and 37.09% higher compared to a black paint-coated aluminum plate. On the other hand, coatings with 10 wt % Si reached up to 73.2 & DEG;C under uncontrolled outdoor conditions compared to 68.8 & DEG;C for the black paint-coated aluminum plate. A further increase in concentration did not improve the surface temperature, which was due to an excessive increase in thermal conductivity and high convective heat losses.
format Article
author Han, Shwe Sin
Ghafoor, Usman
Saeed, Tareq
Elahi, Hassan
Masud, Usman
Kumar, Laveet
Selvaraj, Jeyraj
Ahmad, Muhammad Shakeel
author_facet Han, Shwe Sin
Ghafoor, Usman
Saeed, Tareq
Elahi, Hassan
Masud, Usman
Kumar, Laveet
Selvaraj, Jeyraj
Ahmad, Muhammad Shakeel
author_sort Han, Shwe Sin
title Silicon particles/black paint coating for performance enhancement of solar absorbers
title_short Silicon particles/black paint coating for performance enhancement of solar absorbers
title_full Silicon particles/black paint coating for performance enhancement of solar absorbers
title_fullStr Silicon particles/black paint coating for performance enhancement of solar absorbers
title_full_unstemmed Silicon particles/black paint coating for performance enhancement of solar absorbers
title_sort silicon particles/black paint coating for performance enhancement of solar absorbers
publisher MDPI
publishDate 2021
url http://eprints.um.edu.my/34089/
_version_ 1738510708513964032