Heat transfer evaluation of bio-based shape stabilized PCM with boron nitride for enhancing thermal efficiency

机译：具有氮化硼的生物基形状稳定PCM的传热评价，提高热效率

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Among the PCMs, Bio-based PCMs are considered one of the most promising candidates, due to their large latent heat, low vapor pressure in the melt, good chemical stability, self-nucleating behavior, safety, and commercial availability at low cost. However, the leakage problem and low thermal conductivity of Bio-based PCM limit its application, to some extent. Therefore, porous materials with a high thermal conductivity, such as boron nitride, are promising candidates for simultaneously solving these two problems. In this study, we prepared Bio-based PCM with boron nitride, by using the vacuum impregnation process. We analyzed the microstructure, chemical bonding, heat capacity, thermal resistance and Thermal conductivity of Bio-based PCM with boron nitride, by FTIR, DSC, TGA and TCi analyses.

机译：在PCM中，基于BIO的PCM被认为是最有前途的候选人之一，由于它们的溶解，良好的蒸气压，良好的化学稳定性，自我成核行为，安全性和低成本的商业可用性。然而，基于生物的PCM的泄漏问题和低导热率限制了其应用，在某种程度上。因此，具有高导热率的多孔材料，例如氮化硼，是具有同时解决这两个问题的候选者。在本研究中，通过使用真空浸渍方法，我们使用氮化硼制备基于生物的PCM。我们通过FTIR，DSC，TGA和TCI分析分析了与氮化硼的生物基PCM的微观结构，化学键合，热容，热阻和导热率。

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《International Symposium on Turbulence, Heat and Mass Transfer》|2015年|1(CD-ROM)|共4页
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S. G. Jeong; S. Kim;
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Heat transfer evaluation of bio-based shape stabilized PCM with boron nitride for enhancing thermal efficiency

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