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    Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

    New search for: Hui Wang
    New search for: Yunfa Chen
    New search for: Jianqiang Li
    New search for: Lijiang Guo
    New search for: Minghao Fang

    The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with core-shell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields.

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    Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

    New search for: Hui Wang
    New search for: Yunfa Chen
    New search for: Jianqiang Li
    New search for: Lijiang Guo
    New search for: Minghao Fang

    The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with core-shell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields.

    Access

    Download

    Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

    New search for: Hui Wang
    New search for: Yunfa Chen
    New search for: Jianqiang Li
    New search for: Lijiang Guo
    New search for: Minghao Fang

    The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with core-shell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields.

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    Download

    Access

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    Document information
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    Title:

    Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

    Contributors:

    Hui Wang (author) / Yunfa Chen (author) / Jianqiang Li (author) / Lijiang Guo (author) / Minghao Fang (author)

    Published in:

    KONA Powder and Particle Journal, Vol 37, Iss 0, Pp 85-96 (2019)

    Publication date:

    2019

    ISSN:

    0288-4534 , 2187-5537

    DOI:

    https://doi.org/10.14356/kona.2020010

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    salt hydrate , core-shell microcapsules , phase change materials , encapsulating methods , application , Technology (General) , T1-995 , Nuclear and particle physics. Atomic energy. Radioactivity , QC770-798

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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