A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method

This project aimed to determine solar heat temperature variations in copper and rubber pipes embedded into the asphalt pavement using finite element method. The significant of the project to explore sustainable energy generation while using pavement surface as a heat collector therefore solar effici...

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Main Authors: Ahmad M., Itam Z.B., Beddu S., Alanimi F.B.I., Soanathan S.A.P.
Other Authors: 57200824716
Format: Article
Published: Medwell Journals 2023
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spelling my.uniten.dspace-242182023-05-29T14:57:06Z A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method Ahmad M. Itam Z.B. Beddu S. Alanimi F.B.I. Soanathan S.A.P. 57200824716 55102723400 55812080500 57200820020 57200827138 This project aimed to determine solar heat temperature variations in copper and rubber pipes embedded into the asphalt pavement using finite element method. The significant of the project to explore sustainable energy generation while using pavement surface as a heat collector therefore solar efficiency beneath paved surface has to determine. The arrangement of copper and rubber pipe in asphalt pavement is serpentine. The asphalt pavement size of 300�300 and 300�500 mm is simulated in ANSYS. Asphalt pavement is embedded with serpentine copper and rubber pipes of diameter of 40 mm. The solar heat temperature is collected in asphalt at depths of 50, 100 and 150 mm. Pipes are filled with liquid (water) to maintain or cool the temperature at night time. The stated asphalt pavement size samples have created where copper and rubber pipes are embedded and temperature collection among each sample is recorded. The findings of the project indicated that larger surface area of asphalt pavement (30�500 mm) exposed to the Sunlight collect more energy than smaller (300�300 mm) size of asphalt pavement. The serpentine arrangement of copper and rubber pipes embedded in asphalt pavement has slight difference of solar heat collections. The solar heat collected at 50 mm depth is higher than 100 and 150 mm depths. � Medwell Journals, 2018. Final 2023-05-29T06:57:06Z 2023-05-29T06:57:06Z 2018 Article 10.3923/jeasci.2018.181.189 2-s2.0-85042503916 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85042503916&doi=10.3923%2fjeasci.2018.181.189&partnerID=40&md5=4e0ec8858461ee317b07df7e7c08a060 https://irepository.uniten.edu.my/handle/123456789/24218 13 1 181 189 Medwell Journals 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 This project aimed to determine solar heat temperature variations in copper and rubber pipes embedded into the asphalt pavement using finite element method. The significant of the project to explore sustainable energy generation while using pavement surface as a heat collector therefore solar efficiency beneath paved surface has to determine. The arrangement of copper and rubber pipe in asphalt pavement is serpentine. The asphalt pavement size of 300�300 and 300�500 mm is simulated in ANSYS. Asphalt pavement is embedded with serpentine copper and rubber pipes of diameter of 40 mm. The solar heat temperature is collected in asphalt at depths of 50, 100 and 150 mm. Pipes are filled with liquid (water) to maintain or cool the temperature at night time. The stated asphalt pavement size samples have created where copper and rubber pipes are embedded and temperature collection among each sample is recorded. The findings of the project indicated that larger surface area of asphalt pavement (30�500 mm) exposed to the Sunlight collect more energy than smaller (300�300 mm) size of asphalt pavement. The serpentine arrangement of copper and rubber pipes embedded in asphalt pavement has slight difference of solar heat collections. The solar heat collected at 50 mm depth is higher than 100 and 150 mm depths. � Medwell Journals, 2018.
author2 57200824716
author_facet 57200824716
Ahmad M.
Itam Z.B.
Beddu S.
Alanimi F.B.I.
Soanathan S.A.P.
format Article
author Ahmad M.
Itam Z.B.
Beddu S.
Alanimi F.B.I.
Soanathan S.A.P.
spellingShingle Ahmad M.
Itam Z.B.
Beddu S.
Alanimi F.B.I.
Soanathan S.A.P.
A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
author_sort Ahmad M.
title A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
title_short A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
title_full A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
title_fullStr A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
title_full_unstemmed A determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
title_sort determination of solar heat collection in sepertine copper and rubber pipe embedded in asphalt pavement using finite element method
publisher Medwell Journals
publishDate 2023
_version_ 1806425876930232320
score 13.214268