Staff View: Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.

Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.

To promote diatomaceous earth (DE)-based phase change composite as green energy building materials, this paper bridges the studies of experimental and molecular dynamics (MD) focusing on the absorption effect of phase change materials (PCMs). Octadecanoic acid (OA) was selected as PCMs and DE as sup...

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Main Authors:	Ishak, Shafiq, Lgaz, Hassane, Mandal, Soumen, Adnin, Raihana Jannat, Lee, Dong-Eun, Lee, Han-Seung, Mohammad Harmay, Nurul Syahira, Al Bakri Abdullah, Mohd. Mustafa, Wang, Xiao-Yong, Yang, Hyun-Min
Format:	Article
Published:	Elsevier B.V. 2023
Subjects:	TA Engineering (General). Civil engineering (General)
Online Access:	http://eprints.utm.my/106953/ http://dx.doi.org/10.1016/j.molliq.2023.123292
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id	my.utm.106953
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spelling	my.utm.1069532024-08-07T06:28:53Z http://eprints.utm.my/106953/ Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects. Ishak, Shafiq Lgaz, Hassane Mandal, Soumen Adnin, Raihana Jannat Lee, Dong-Eun Lee, Han-Seung Mohammad Harmay, Nurul Syahira Al Bakri Abdullah, Mohd. Mustafa Wang, Xiao-Yong Yang, Hyun-Min TA Engineering (General). Civil engineering (General) To promote diatomaceous earth (DE)-based phase change composite as green energy building materials, this paper bridges the studies of experimental and molecular dynamics (MD) focusing on the absorption effect of phase change materials (PCMs). Octadecanoic acid (OA) was selected as PCMs and DE as supporting material for the fabrication of composite PCMs at different loading ratios; effect on thermal properties and porosity of the composite PCMs were further investigated by MD simulation. In consonance with ATR-FTIR and XRD analyses, the highest loading ratio (DEOA-4) was proven to absorb a high amount of PCMs, with excellent thermal stability and chemical compatibility. DEOA-4 exhibited higher latent heat storage capacity of 52.67 J/g, with a loading ratio and loading efficiency of 32.13 and 32.98 %. Besides, MD simulation showed that increasing the OA loading would decrease the fractional free volume of DEOA models, resulting in a limited mobility of PCMs molecules, as confirmed by self-diffusion coefficient at room and melting temperatures. Experimental and computational studies revealed that pore-filling process plays an imperative role during PCMs absorption. An adequate amount of loading ratio can potentially enhance the pore-filling process, maximize the efficiency of the performances, and promote the development of green energy in concrete structures. Elsevier B.V. 2023-12-01 Article PeerReviewed Ishak, Shafiq and Lgaz, Hassane and Mandal, Soumen and Adnin, Raihana Jannat and Lee, Dong-Eun and Lee, Han-Seung and Mohammad Harmay, Nurul Syahira and Al Bakri Abdullah, Mohd. Mustafa and Wang, Xiao-Yong and Yang, Hyun-Min (2023) Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects. Journal of Molecular Liquids, 391 (123292). NA-NA. ISSN 0167-7322 http://dx.doi.org/10.1016/j.molliq.2023.123292 DOI:10.1016/j.molliq.2023.123292
institution	Universiti Teknologi Malaysia
building	UTM Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Teknologi Malaysia
content_source	UTM Institutional Repository
url_provider	http://eprints.utm.my/
topic	TA Engineering (General). Civil engineering (General)
spellingShingle	TA Engineering (General). Civil engineering (General) Ishak, Shafiq Lgaz, Hassane Mandal, Soumen Adnin, Raihana Jannat Lee, Dong-Eun Lee, Han-Seung Mohammad Harmay, Nurul Syahira Al Bakri Abdullah, Mohd. Mustafa Wang, Xiao-Yong Yang, Hyun-Min Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
description	To promote diatomaceous earth (DE)-based phase change composite as green energy building materials, this paper bridges the studies of experimental and molecular dynamics (MD) focusing on the absorption effect of phase change materials (PCMs). Octadecanoic acid (OA) was selected as PCMs and DE as supporting material for the fabrication of composite PCMs at different loading ratios; effect on thermal properties and porosity of the composite PCMs were further investigated by MD simulation. In consonance with ATR-FTIR and XRD analyses, the highest loading ratio (DEOA-4) was proven to absorb a high amount of PCMs, with excellent thermal stability and chemical compatibility. DEOA-4 exhibited higher latent heat storage capacity of 52.67 J/g, with a loading ratio and loading efficiency of 32.13 and 32.98 %. Besides, MD simulation showed that increasing the OA loading would decrease the fractional free volume of DEOA models, resulting in a limited mobility of PCMs molecules, as confirmed by self-diffusion coefficient at room and melting temperatures. Experimental and computational studies revealed that pore-filling process plays an imperative role during PCMs absorption. An adequate amount of loading ratio can potentially enhance the pore-filling process, maximize the efficiency of the performances, and promote the development of green energy in concrete structures.
format	Article
author	Ishak, Shafiq Lgaz, Hassane Mandal, Soumen Adnin, Raihana Jannat Lee, Dong-Eun Lee, Han-Seung Mohammad Harmay, Nurul Syahira Al Bakri Abdullah, Mohd. Mustafa Wang, Xiao-Yong Yang, Hyun-Min
author_facet	Ishak, Shafiq Lgaz, Hassane Mandal, Soumen Adnin, Raihana Jannat Lee, Dong-Eun Lee, Han-Seung Mohammad Harmay, Nurul Syahira Al Bakri Abdullah, Mohd. Mustafa Wang, Xiao-Yong Yang, Hyun-Min
author_sort	Ishak, Shafiq
title	Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
title_short	Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
title_full	Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
title_fullStr	Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
title_full_unstemmed	Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.
title_sort	multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: experimental and molecular dynamics aspects.
publisher	Elsevier B.V.
publishDate	2023
url	http://eprints.utm.my/106953/ http://dx.doi.org/10.1016/j.molliq.2023.123292
_version_	1807048681452470272
score	13.250246

Multi-technique investigation on the surface interaction of diatomaceous earth with organic phase change material: Experimental and molecular dynamics aspects.

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