Shape-Stabilized Phase Change Materials: Preparation and Properties of Frozen Gels from Polypropylene and n-Eicosane for Latent Heat Storage

被引:3
作者
Son, Taewon [2 ]
Lim, Haksang [3 ]
Kim, Taehun [4 ]
Ko, JaeWang [1 ]
机构
[1] Yeungnam Univ, Grad Sch, Dept Text Engn, Kyongsan 712749, Gyeongbuk, South Korea
[2] Yeungnam Univ, Sch Text, Kyongsan 712749, Gyeongbuk, South Korea
[3] Semyung Univ, Dept Bio & Environm Engn, Jecheon 390711, Chungbuk, South Korea
[4] Global Challenge Res Ctr, Taegu 703833, South Korea
来源
POLYMER-KOREA | 2010年 / 34卷 / 03期
关键词
phase change material (PCM); polypropylene; n-eicosanes; frozen gel; latent heat; SSPCM; melt index (melt flow index); PARAFFIN WAXES; ENERGY-STORAGE; POLYETHYLENE; PCM;
D O I
10.7317/pk.2010.34.3.261
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Phase change materials based on polypropylene blended with n-eicosane were studied in this paper. In addition, this paper reviews recent studies on the preparation of shape stabilized phase change materials (SSPCM), such as SSPCM from polypropylenes and n-eicosane, their basic properties and possible applications to latent heat storage. The preparation methods used were the melting method and absorption methods. Shape stabilized PCM (SSPCM) prepared for DSC, WAXD. FTIR spectroscopy, ARES, results of the analysis of shape stability heat capacity to improve were identified.
引用
收藏
页码:261 / 268
页数:8
相关论文
共 50 条
  • [41] Preparation and properties of sodium sulfate decahydrate shape-stabilized composite phase change material for solar greenhouse
    Zhang, Baolian
    Zhu, Yuhao
    Zhao, Hongbin
    Yuan, Yingmin
    Wang, Gang
    MATERIALS TODAY COMMUNICATIONS, 2025, 42
  • [42] Effect of modified diatomite based shape-stabilized phase change materials on multiphysics characteristics of thermal storage mortar
    Ren, Miao
    Zhao, Hua
    Gao, Xiaojian
    ENERGY, 2022, 241
  • [43] Shape-stabilized orange peel/myristic acid phase change materials for efficient thermal energy storage application
    Mandal, Soumen
    Ishak, Shafiq
    Lee, Dong-Eun
    Park, Taejoon
    ENERGY REPORTS, 2022, 8 : 9618 - 9628
  • [44] Dulcitol/Starch Systems as Shape-Stabilized Phase Change Materials for Long-Term Thermal Energy Storage
    Szatkowska, Martyna
    Pielichowska, Kinga
    POLYMERS, 2024, 16 (22)
  • [45] Biomass-based shape-stabilized phase change materials for thermal energy storage and multiple energy conversion
    Tian, Yingying
    Yang, Ruiying
    Pan, Haokun
    Zheng, Nannan
    Huang, Xiubing
    NANO ENERGY, 2025, 133
  • [46] Study on preparation and thermal properties of sodium nitrate/silica composite as shape-stabilized phase change material
    Guo, Qiang
    Wang, Tao
    THERMOCHIMICA ACTA, 2015, 613 : 66 - 70
  • [47] Preparation of dodecahydrate disodium hydrogen phosphate shape-stabilized composite phase change materials and their experimental investigation in solar thermal storage and exothermic systems
    Ji, Jun
    Zhang, Chaoxiang
    Liu, Wei
    Zhang, Xuelai
    RENEWABLE ENERGY, 2024, 235
  • [48] Activated carbon nanotube/polyacrylic acid/stearyl alcohol nanocomposites as thermal energy storage effective shape-stabilized phase change materials
    Goksu, Haydar
    Aydinli, Elif
    Hekimoglu, Gokhan
    Sari, Ahmet
    Gencel, Osman
    Subasi, Serkan
    Tozluoglu, Ayhan
    SURFACES AND INTERFACES, 2022, 31
  • [49] Thermal and mechanical properties of building external walls plastered with cement mortar incorporating shape-stabilized phase change materials (SSPCMs)
    Hattan, Hamed Abbasi
    Madhkhan, Mortaza
    Marani, Afshin
    CONSTRUCTION AND BUILDING MATERIALS, 2021, 270
  • [50] Synthesis and thermal properties of fatty acid eutectics and diatomite composites as shape-stabilized phase change materials with enhanced thermal conductivity
    Tang, Fang
    Su, Di
    Tang, Yaojie
    Fang, Guiyin
    SOLAR ENERGY MATERIALS AND SOLAR CELLS, 2015, 141 : 218 - 224
12345