Thermophysical Characterization of an Insulating Bio-material Based on the Macerate of ''Néré'' (Parkiabiglobosa) Pods and Cow Dung

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
D. Armand, Adamon Gildas David, Houngbeme Carlos, H. Aristide, Houehanou C. Ernesto, Vianou Antoine
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Abstract

This work concerns the thermophysical characterization of a bio-eco-material made from cow dung and the macerate of nere pods. To achieve this, chemical tests based on tannin concentration determination of four different solutions of nere pods (60 g.l-1; 120 g.l-1; 180 g.l-1 and 240 g.l-1) were prepared at 100°C, then brought to the boil for 5 minutes. After three different maceration times (6 h; 24 h and 48 h), the analysis of the solutions obtained using a spectrometer made it possible to select the solutions of 120 g.l-1 and 180 g.l-1 which offer best tannin concentrations in 24 hours, necessary for making test pieces. Thermal tests based on thermal effusivity and thermal conductivity measurements were then carried out in transient mode, with hot strip method. In order to compare the thermal performance of developed eco-material with that of ordinary insulators, the thermophysical properties of plywood and plaster were also measured. The results obtained showed that for the two dosages of 120 g.l-1 and 180 g.l-1, the thermal effusivity of eco-insulator varies from 247.732 J.K-1.m-2.s-0,5 to 270.732 J.K-1.m-2.s-0,5 respectively and the thermal conductivity from 0.082 W.m-1.K-1 to 0.080 W.m-1.K-1. For the same dosages, the thermal diffusivity varies from 1.106.10-7 m².s-¹ to 0.881.10-7 m².s-¹ respectively. A comparative study has shown that the eco-material developed and tested offers better insulating power due to its relatively weak thermophysical properties compared to ordinary insulating materials, namely plaster and plywood.
基于“nassir”豆荚和牛粪浸渍的绝缘生物材料的热物理特性研究
这项工作涉及由牛粪和神经豆荚浸渍制成的生物生态材料的热物理特性。为了实现这一目标,基于单宁浓度测定的四种不同的神经豆荚溶液(60 g.l-1;120 g.l-1;分别取180 g.l-1和240 g.l-1),在100℃下煮沸5分钟。经过三次不同的浸渍时间(6 h;24小时和48小时),用光谱仪对得到的溶液进行分析,可以选择120 g.l-1和180 g.l-1的溶液,在24小时内提供最佳的单宁浓度,这是制作试样所必需的。然后在瞬态模式下用热带法进行了基于热渗透率和导热系数测量的热测试。为了比较开发的生态材料与普通绝缘体的热性能,还测量了胶合板和石膏的热物理性能。结果表明,在120 g.l-1和180 g.l-1两种剂量下,生态绝缘子的热溢率为247.732 j . k . 1.m-2。s-0,5至270.732 j.k -1 - m-2s-0,5,导热系数0.082 w - m-1。K-1至0.080 w - m-1 K-1。对于相同剂量,热扩散系数在1.106.10-7 m²之间变化。S -¹到0.881.10-7 m²。s -¹分别。一项对比研究表明,开发和测试的生态材料与普通绝缘材料(即石膏和胶合板)相比,其热物理性能相对较弱,因此具有更好的绝缘能力。
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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来源期刊
Advances in Materials Science
Advances in Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
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