Analysis of the influence of moisture and temperature control according to the combination of porous sediment and MPCM

Yuk Hyeonseong; Yang Sungwoong; Kim Young Uk; Yun Beom Yeol; Wi Seunghwan; Kim Sumin

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Analysis of the influence of moisture and temperature control according to the combination of porous sediment and MPCM

机译：含水量和温度控制的影响分析多孔沉积物和MPCM的影响

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Indoor finishing materials that can control the indoor environment through moisture control materials are being developed. Since humidity is affected by temperature, it is necessary to analyze a mixture of materials that affect temperature and materials that affect humidity. This study analyzed the effects of absorbent porous sediments (PAS) and micro-encapsulated phase change materials (MPCM) on the indoor environment and on each other's abilities. The effects of each other were compared by varying the mixing ratio of PAS and MPCM. Actually, as the content of PAS increased, it had a high latent heat of 7.939 J/g, and the Water vapor resistance factor increased as the amount of MPCM increased. It has proven to affect different abilities. However, since PAS and MPCM have an influence on each other, it does not have a better hygroscopicity control when PAS increases. Dynamic heat and moisture experiments have confirmed that it has an excellent ratio. The excellent ratio in this study was an interior finish with a ratio of 0.35:0.65 G and 10% MPCM to PAS.

机译：目前正在开发能够通过防潮材料控制室内环境的室内装饰材料。由于湿度受温度影响，因此有必要分析影响温度的材料和影响湿度的材料的混合物。本研究分析了吸收性多孔沉积物（PAS）和微囊化相变材料（MPCM）对室内环境和相互能力的影响。通过改变PAS和MPCM的混合比例来比较两者的效果。事实上，随着PAS含量的增加，其潜热高达7.939 J/g，并且水蒸气阻力因子随着MPCM含量的增加而增加。事实证明，它会影响不同的能力。然而，由于PAS和MPCM相互影响，因此当PAS增加时，它没有更好的吸湿性控制。动态热湿实验已经证实，它有一个很好的比例。本研究中的最佳比例是室内饰面，其比例为0.35:0.65 G，MPCM与PAS的比例为10%。

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来源
《Journal of industrial and engineering chemistry》 |2021年第1期|共12页
作者
Yuk Hyeonseong; Yang Sungwoong; Kim Young Uk; Yun Beom Yeol; Wi Seunghwan; Kim Sumin;
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作者单位

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

Yonsei Univ Dept Architecture &

Architectural Engn Seoul 03722 South Korea;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Porous material; Geological sediments; Phase change materials; Moisture buffer value; Moisture; Hygrothermal properties;

机译：None;

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Analysis of the influence of moisture and temperature control according to the combination of porous sediment and MPCM

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