Hybrid nanocomposite of vanadium dioxide and carbon nanotubes embedded in a gypsum binder for thermal energy storage

Revista de Ingeniería Civil Pub Date : 2022-12-31 DOI:10.35429/jce.2022.16.6.32.45

Jesús Roberto Villegas-Méndez, M. Figueroa-Torres, M. A. Guerra-Cossío, F. Ruvalcaba-Ayala

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Abstract

This investigation studied the heat storage capacity of a gypsum blinder with a hybrid nanocomposite (NH) of vanadium dioxide and multiwall carbon nanotubes (VO2/MWCNT). The influence of the NH in the hydration kinetics and hydrated products was determined. The effect of the incorporated amount of NH in the wettability, mass loss by humectation-drying cycles, thermal conductivity, specific heat (Cp) and gypsum thermal performance at 40 °C was determined. Characterization techniques exhibited that the presence of VO2/MWCNT did not modify hydration kinetics and phases development, water drop angle or compressive strength. Nevertheless, gypsum blinders mass loss increased with the presence of the nanocomposite after 6 humectation-drying cycles. According to the thermal properties, it was found that the NH addition increased gypsum blinders thermal conductivity and Cp values. Finally, it was concluded that gypsum with VO2/MWCNT promotes self-thermal regulation properties without affecting its performance. The usage of VO2/MWCNT embedded in a gypsum as a construction material would provide thermal comfort conditions in buildings.

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二氧化钒和碳纳米管嵌入石膏粘结剂中用于热能储存的杂化纳米复合材料

本文研究了二氧化钒和多壁碳纳米管(VO2/MWCNT)混合纳米复合材料(NH)的石膏遮罩的储热性能。测定了NH对水化动力学和水化产物的影响。测定了NH掺入量对石膏在40℃下的润湿性、湿干循环失重、导热系数、比热(Cp)和石膏热性能的影响。表征技术表明，VO2/MWCNT的存在不会改变水化动力学和相发展，水滴角或抗压强度。然而，在6个湿润干燥循环后，随着纳米复合材料的存在，石膏遮罩的质量损失增加。通过热性能分析，发现添加NH提高了石膏盲剂的导热系数和Cp值。最后得出结论:掺有VO2/MWCNT的石膏在不影响其性能的情况下，提高了其自热调节性能。将VO2/MWCNT嵌入石膏中作为建筑材料，将为建筑物提供热舒适条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revista de Ingeniería Civil

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