钒离子在羊毛上的吸附特性及含钒羊毛对湿度的光热转换和传热

IF 0.3 4区 工程技术 Q4 MATERIALS SCIENCE, TEXTILES
Yoshinobu Uegaki, kohei Miyazawa, Tetsuya Sato, Yuichiro Shiozawa, H. Yasunaga
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引用次数: 0

摘要

用voso4水溶液对羊毛织物进行处理,并与未处理羊毛织物、普通涤纶织物和碳化锆涤纶织物进行比较,评价其光热转化和保温性能。发现钒离子在羊毛织物上的吸附为Langmuir型。在可见光/红外光照射下,voso4处理羊毛织物的光热转化率高于未处理羊毛织物。随着室内湿度的增加,光照射下voso4处理羊毛单织物的温度略有下降。单件织物熄灯后的温度随着室内湿度的增加而大幅度升高。这被认为是由于纤维吸收和吸附水的比热容增加。在65%相对湿度的光照下,四层voso4处理羊毛织物的发光侧和背面表面温度在未处理羊毛、普通涤纶和碳化锆涤纶织物中最高。结果表明,当相同的光照射到四种层状织物上时,经voso4处理的织物整体上是最温暖的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adsorption Characteristics of Vanadium Ion on Wool, and Photothermal Conversion and Heat Transfer of Vanadium-Treated Wool Depending on Humidity
: The wool fabrics were treated with VOSO 4 aqueous solution and its photothermal conversion and heat retention behaviours were evaluated in comparison with the fabrics of untreated wool, normal polyester and polyester incorporated with zirconium carbide. The adsorption of vanadium ions onto the wool fabric was found to be the Langmuir type. The VOSO 4 -treated wool fabric showed higher photothermal conversion than the untreated wool fabric, when it was irradiated with the visible/IR light. The temperature of the VOSO 4 treated wool single fabric under the light irradiation decreased slightly with an increase in the chamber humidity. The temperature of the single fabric after the light off increased largely with an increase in the chamber humidity. It was considered to be due to the increasing specific heat capacity of the fibre which absorbed and adsorbed water. The surface temperatures of the lighted side and of the back of the lighted side for the four-layered VOSO 4 -treated wool fabrics were highest among the fabrics of untreated wool, normal polyester and polyester incorporated with zirconium carbide, when they were irradiated with the light at 65 % RH humidity. It was found that the VOSO 4 -treated fabric is the warmest on the whole, when the same light is irradiated to the four kinds of layered fabrics.
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来源期刊
Journal of Fiber Science and Technology
Journal of Fiber Science and Technology Materials Science-Materials Science (miscellaneous)
CiteScore
0.50
自引率
0.00%
发文量
17
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