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Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials

Developing phase change materials (PCMs) with suitable phase change temperatures and high latent heat is of great significance for accelerating the development of latent heat storage technology to be applied in solar water heating (SWH) systems. The phase change performances of two mixtures, NH(4)Al...

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Autores principales: Sun, Wanchun, Zhou, Yan, Feng, Jinxin, Fang, Xiaoming, Ling, Ziye, Zhang, Zhengguo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6359154/
https://www.ncbi.nlm.nih.gov/pubmed/30669591
http://dx.doi.org/10.3390/molecules24020363
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author Sun, Wanchun
Zhou, Yan
Feng, Jinxin
Fang, Xiaoming
Ling, Ziye
Zhang, Zhengguo
author_facet Sun, Wanchun
Zhou, Yan
Feng, Jinxin
Fang, Xiaoming
Ling, Ziye
Zhang, Zhengguo
author_sort Sun, Wanchun
collection PubMed
description Developing phase change materials (PCMs) with suitable phase change temperatures and high latent heat is of great significance for accelerating the development of latent heat storage technology to be applied in solar water heating (SWH) systems. The phase change performances of two mixtures, NH(4)Al(SO(4))(2)·12H(2)O-MgCl(2)·6H(2)O (mixture-A) and KAl(SO(4))(2)·12H(2)O-MgCl(2)·6H(2)O (mixture-B), were investigated in this paper. Based on the DSC results, the optimum contents of MgCl(2)·6H(2)O in mixture-A and mixture-B were determined to be 30 wt%. It is found that the melting points of mixture-A (30 wt% MgCl(2)·6H(2)O) and mixture-B (30 wt% MgCl(2)·6H(2)O) are 64.15 °C and 60.15 °C, respectively, which are suitable for SWH systems. Moreover, two mixtures have high latent heat of up to 192.1 kJ/kg and 198.1 kJ/kg as well as exhibit little supercooling. After 200 cycles heating-cooling experiments, the deviations in melting point and melting enthalpy of mixture-A are only 1.51% and 1.20%, respectively. Furthermore, the XRD patterns before and after the cycling experiments show that mixture-A possesses good structure stability. These excellent thermal characteristics make mixture-A show great potential for SWH systems.
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spelling pubmed-63591542019-02-06 Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials Sun, Wanchun Zhou, Yan Feng, Jinxin Fang, Xiaoming Ling, Ziye Zhang, Zhengguo Molecules Article Developing phase change materials (PCMs) with suitable phase change temperatures and high latent heat is of great significance for accelerating the development of latent heat storage technology to be applied in solar water heating (SWH) systems. The phase change performances of two mixtures, NH(4)Al(SO(4))(2)·12H(2)O-MgCl(2)·6H(2)O (mixture-A) and KAl(SO(4))(2)·12H(2)O-MgCl(2)·6H(2)O (mixture-B), were investigated in this paper. Based on the DSC results, the optimum contents of MgCl(2)·6H(2)O in mixture-A and mixture-B were determined to be 30 wt%. It is found that the melting points of mixture-A (30 wt% MgCl(2)·6H(2)O) and mixture-B (30 wt% MgCl(2)·6H(2)O) are 64.15 °C and 60.15 °C, respectively, which are suitable for SWH systems. Moreover, two mixtures have high latent heat of up to 192.1 kJ/kg and 198.1 kJ/kg as well as exhibit little supercooling. After 200 cycles heating-cooling experiments, the deviations in melting point and melting enthalpy of mixture-A are only 1.51% and 1.20%, respectively. Furthermore, the XRD patterns before and after the cycling experiments show that mixture-A possesses good structure stability. These excellent thermal characteristics make mixture-A show great potential for SWH systems. MDPI 2019-01-21 /pmc/articles/PMC6359154/ /pubmed/30669591 http://dx.doi.org/10.3390/molecules24020363 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Sun, Wanchun
Zhou, Yan
Feng, Jinxin
Fang, Xiaoming
Ling, Ziye
Zhang, Zhengguo
Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title_full Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title_fullStr Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title_full_unstemmed Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title_short Compounding MgCl(2)·6H(2)O with NH(4)Al(SO(4))(2)·12H(2)O or KAl(SO(4))(2)·12H(2)O to Obtain Binary Hydrated Salts as High-Performance Phase Change Materials
title_sort compounding mgcl(2)·6h(2)o with nh(4)al(so(4))(2)·12h(2)o or kal(so(4))(2)·12h(2)o to obtain binary hydrated salts as high-performance phase change materials
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6359154/
https://www.ncbi.nlm.nih.gov/pubmed/30669591
http://dx.doi.org/10.3390/molecules24020363
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