Improved surface temperature of absorber plate using metallic titanium particles for solar still application

Solar distillation technique by using solar stills is the most feasible and environment friendly way to supply fresh water in arid and remote regions. One of the key challenges in solar distillation is to enhance productivity of solar still. In this study, effect of metallic titanium (Ti) particles...

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Main Authors: Fayaz, H., Rasachak, Sayfar, Ahmad, Muhammad Shakeel, Kumar, Laveet, Zhang, Bo, Jeyraj, Selvaraj, Mujtaba, M. A., Soudagar, Manzoore Elahi M., Kumar, Ravinder, Omidvar, Mohammad Rasoul
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Published: Elsevier 2022
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Online Access:http://eprints.um.edu.my/42051/
https://doi.org/10.1016/j.seta.2022.102092
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spelling my.um.eprints.420512023-10-17T00:59:13Z http://eprints.um.edu.my/42051/ Improved surface temperature of absorber plate using metallic titanium particles for solar still application Fayaz, H. Rasachak, Sayfar Ahmad, Muhammad Shakeel Kumar, Laveet Zhang, Bo Jeyraj, Selvaraj Mujtaba, M. A. Soudagar, Manzoore Elahi M. Kumar, Ravinder Omidvar, Mohammad Rasoul Q Science (General) T Technology (General) Solar distillation technique by using solar stills is the most feasible and environment friendly way to supply fresh water in arid and remote regions. One of the key challenges in solar distillation is to enhance productivity of solar still. In this study, effect of metallic titanium (Ti) particles has been investigated for surface temperature of solar still absorber to increase the distillate production. Ti particles of various concentrations have been blended with black paint and applied on absorber plate. The morphology of the surface and phase identification of powder received have been studied and verified using SEM and XRD. The characteristics of light absorption were examined using Uv-vis Spectroscopy. Extensive outdoor and indoor testing (using improvised solar simulator) have been carried out to optimize the concentration. The highest temperature of 100.39 degrees C at 1000 W/m(2) solar irradiation in indoor conditions has been recorded for 7 wt% Ti specimen in black paint which is 11.87% higher compared to only black paint coated aluminum plate and 54.35% higher than bare aluminum plate. The 7 wt% Ti specimen temperature increased up to 77.58 degrees C in comparison to the aluminum plate having black paint. Further increase in concentration did not increase surface temperature due to excessive convective heat losses. Elsevier 2022-08 Article PeerReviewed Fayaz, H. and Rasachak, Sayfar and Ahmad, Muhammad Shakeel and Kumar, Laveet and Zhang, Bo and Jeyraj, Selvaraj and Mujtaba, M. A. and Soudagar, Manzoore Elahi M. and Kumar, Ravinder and Omidvar, Mohammad Rasoul (2022) Improved surface temperature of absorber plate using metallic titanium particles for solar still application. Sustainable Energy Technologies and Assessments, 52 (A). ISSN 2213-1388, DOI https://doi.org/10.1016/j.seta.2022.102092 <https://doi.org/10.1016/j.seta.2022.102092>. https://doi.org/10.1016/j.seta.2022.102092 10.1016/j.seta.2022.102092
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 Q Science (General)
T Technology (General)
spellingShingle Q Science (General)
T Technology (General)
Fayaz, H.
Rasachak, Sayfar
Ahmad, Muhammad Shakeel
Kumar, Laveet
Zhang, Bo
Jeyraj, Selvaraj
Mujtaba, M. A.
Soudagar, Manzoore Elahi M.
Kumar, Ravinder
Omidvar, Mohammad Rasoul
Improved surface temperature of absorber plate using metallic titanium particles for solar still application
description Solar distillation technique by using solar stills is the most feasible and environment friendly way to supply fresh water in arid and remote regions. One of the key challenges in solar distillation is to enhance productivity of solar still. In this study, effect of metallic titanium (Ti) particles has been investigated for surface temperature of solar still absorber to increase the distillate production. Ti particles of various concentrations have been blended with black paint and applied on absorber plate. The morphology of the surface and phase identification of powder received have been studied and verified using SEM and XRD. The characteristics of light absorption were examined using Uv-vis Spectroscopy. Extensive outdoor and indoor testing (using improvised solar simulator) have been carried out to optimize the concentration. The highest temperature of 100.39 degrees C at 1000 W/m(2) solar irradiation in indoor conditions has been recorded for 7 wt% Ti specimen in black paint which is 11.87% higher compared to only black paint coated aluminum plate and 54.35% higher than bare aluminum plate. The 7 wt% Ti specimen temperature increased up to 77.58 degrees C in comparison to the aluminum plate having black paint. Further increase in concentration did not increase surface temperature due to excessive convective heat losses.
format Article
author Fayaz, H.
Rasachak, Sayfar
Ahmad, Muhammad Shakeel
Kumar, Laveet
Zhang, Bo
Jeyraj, Selvaraj
Mujtaba, M. A.
Soudagar, Manzoore Elahi M.
Kumar, Ravinder
Omidvar, Mohammad Rasoul
author_facet Fayaz, H.
Rasachak, Sayfar
Ahmad, Muhammad Shakeel
Kumar, Laveet
Zhang, Bo
Jeyraj, Selvaraj
Mujtaba, M. A.
Soudagar, Manzoore Elahi M.
Kumar, Ravinder
Omidvar, Mohammad Rasoul
author_sort Fayaz, H.
title Improved surface temperature of absorber plate using metallic titanium particles for solar still application
title_short Improved surface temperature of absorber plate using metallic titanium particles for solar still application
title_full Improved surface temperature of absorber plate using metallic titanium particles for solar still application
title_fullStr Improved surface temperature of absorber plate using metallic titanium particles for solar still application
title_full_unstemmed Improved surface temperature of absorber plate using metallic titanium particles for solar still application
title_sort improved surface temperature of absorber plate using metallic titanium particles for solar still application
publisher Elsevier
publishDate 2022
url http://eprints.um.edu.my/42051/
https://doi.org/10.1016/j.seta.2022.102092
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score 13.211869