Evaluating the thermal insulation performance of composite panels made of natural Luffa fibres and urea-formaldehyde resin for buildings in the hot arid region

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Advances in Building Energy Research Pub Date : 2022-07-09 DOI:10.1080/17512549.2022.2098534
Tawfeeq Wasmi M. Salih, L. Jawad
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引用次数: 6

Abstract

ABSTRACT This study investigates the performance of thermal insulation panels composed of the natural Luffa fibres with urea-formaldehyde resin for buildings in the hot arid region. The study has been done experimentally. The work has included the collecting of Luffa fibres from local gardens in Iraq, manufacturing the specimens and measuring the thermal conductivity for different thicknesses, densities and temperatures. The results show that the thermal conductivity of Luffa/urea-formaldehyde composite ranges between 0.22 and 0.25 W/m K. Furthermore, the k-value of the panel may differ by 5–15% depending on the thickness under testing, and by 10–20% depending on the density. However, the main advantage of Luffa composites is that the k-value of the panel is not affected too much at high temperatures, where it has been increased up to 0.26 W/m K (or by 15%) as maximum by the increase of source temperature up to 80°C. This feature has encouraged the use of these panels as external insulation layers in the hot climate region. The results taken from a simulation programme have revealed that the energy saving in the cooling load due to the use of 30-mm insulated panels made of these composites and covered by reflective foils can reach up to 30%.
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热干旱区建筑用天然丝瓜纤维与脲醛树脂复合板隔热性能评价
摘要本研究研究了天然丝瓜纤维与脲醛树脂复合材料在炎热干旱区建筑中的保温性能。这项研究是通过实验进行的。这项工作包括从伊拉克当地花园收集丝瓜纤维,制作标本,并测量不同厚度、密度和温度下的热导率。结果表明,丝瓜/脲醛复合材料的导热系数在0.22 ~ 0.25 W/m K之间。此外,根据测试厚度的不同,面板的k值可能相差5-15%,根据密度的不同,k值可能相差10-20%。然而,Luffa复合材料的主要优点是面板的K值在高温下不会受到太大影响,当源温度升高到80°C时,面板的K值最高可增加到0.26 W/m K(或增加15%)。这一特点鼓励在炎热气候地区使用这些面板作为外部绝缘层。模拟程序的结果表明,由于使用由这些复合材料制成的30毫米绝缘板并覆盖有反射箔,冷却负荷的节能可达30%。
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来源期刊
Advances in Building Energy Research
Advances in Building Energy Research CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
4.80
自引率
5.00%
发文量
11
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