Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector

Corrosion; Energy harvesting; Ethylene; Pavements; Polyols; Solar energy; Stainless steel; Steel pipe; Field monitoring; Heat collectors; Heat extraction; Methods and materials; Pavement layer; Renewable energies; Renewable sources; Solar energy collectors; Ethylene glycol

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Main Authors: Talib S.H.A., Syed Hashim S.I.N., Beddu S., Maidin A.F., Abustan M.S.
Other Authors: 57202044693
Format: Conference Paper
Published: EDP Sciences 2023
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spelling my.uniten.dspace-225992023-05-29T14:11:17Z Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector Talib S.H.A. Syed Hashim S.I.N. Beddu S. Maidin A.F. Abustan M.S. 57202044693 57192916079 55812080500 57192914251 57189375859 Corrosion; Energy harvesting; Ethylene; Pavements; Polyols; Solar energy; Stainless steel; Steel pipe; Field monitoring; Heat collectors; Heat extraction; Methods and materials; Pavement layer; Renewable energies; Renewable sources; Solar energy collectors; Ethylene glycol Due to the hot weather in Malaysia, several studies being carried out regarding solar energy harvesting and use as a noble renewable energy. Therefore, researchers start developing various methods to utilize sun's heat as a renewable source of energy. Solar energy has been always concern researchers to develop most effective, durable and cheap methods and materials to be used as solar energy collectors in road pavements. Therefore, this study was conducted to determine the maximum heat area using ethylene glycol. The study was involved the field monitoring of the six samples of asphalt slab with stainless steel pipe with ethylene glycol and empty pipe act as the controlled sample. The pipe was arranged in three different depths of 50mm, 100mm and 150mm and keeping controlled the pipe diameter and the size of slab of 20mm and 300mm x 300mm respectively. These results show that the maximum heat extraction by the ethylene glycol was at a depth 150mm which was 51.2�C. The average percentage increments of the pipe with ethylene glycol for three days for pipe depth 50mm was 71%, while for pipe at depth 100mm and 150mm were 78% and 62% respectively. The ethylene glycol effect was more noticeable compare to the pipe without ethylene glycol and can store more heat. For the strength of pipe, the highest maximum load bearing capacity that can be supported by the stainless steel pipe was at depth 50mm and the second highest was at a depth 100mm while the third highest was at depth 150mm. So, the suitable depth to install the pipe with the consideration of both cases which was maximum heat gain and the maximum load that can be supported was at depth 50mm. � The Authors, published by EDP Sciences, 2017. Final 2023-05-29T06:11:17Z 2023-05-29T06:11:17Z 2016 Conference Paper 10.1051/matecconf/20178701015 2-s2.0-85009080539 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85009080539&doi=10.1051%2fmatecconf%2f20178701015&partnerID=40&md5=653daa62f3c3abe1108b0f28b507f097 https://irepository.uniten.edu.my/handle/123456789/22599 87 1015 All Open Access, Gold EDP Sciences 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 Corrosion; Energy harvesting; Ethylene; Pavements; Polyols; Solar energy; Stainless steel; Steel pipe; Field monitoring; Heat collectors; Heat extraction; Methods and materials; Pavement layer; Renewable energies; Renewable sources; Solar energy collectors; Ethylene glycol
author2 57202044693
author_facet 57202044693
Talib S.H.A.
Syed Hashim S.I.N.
Beddu S.
Maidin A.F.
Abustan M.S.
format Conference Paper
author Talib S.H.A.
Syed Hashim S.I.N.
Beddu S.
Maidin A.F.
Abustan M.S.
spellingShingle Talib S.H.A.
Syed Hashim S.I.N.
Beddu S.
Maidin A.F.
Abustan M.S.
Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
author_sort Talib S.H.A.
title Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
title_short Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
title_full Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
title_fullStr Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
title_full_unstemmed Heat Lump in Different Pavement Layer Using Ethylene Glycol as A Solar Heat Collector
title_sort heat lump in different pavement layer using ethylene glycol as a solar heat collector
publisher EDP Sciences
publishDate 2023
_version_ 1806427437933789184
score 13.222552