Study on the Heat Conduction of Phase-Change Material Microcapsules

被引:0
|
作者
Gangtao Zhao [1 ]
Xiaohui Xu [2 ]
Lin Qiu [3 ]
Xinghua Zheng [3 ]
Dawei Tang [3 ]
机构
[1] Dept. of Pharmacology, General Hospital of Beijing Military Command, Chinese People's Liberation Army, CN
[2] 95824 Troop of Chinese People's Liberation Army, CN
[3] Institute of Engineering Thermophysics, Chinese Academy of Sciences
来源
Journal of Thermal Science | 2013年 / 22卷 / 03期
基金
中国国家自然科学基金;
关键词
3ω-method; Effective thermal conductivity; Phase-change material microcapsules;
D O I
暂无
中图分类号
TK124 [传热学];
学科分类号
摘要
The 3ω approach was used to measure the effective thermal conductivity of phase-change material microcapsules (PCMMs) based on urea formaldehyde and sliced paraffin. The effective thermal conductivities of PCMMs with different densities were measured within the phase-change temperature range. The relationships between effective thermal conductivity, density and temperature were analysed. The effective thermal conductivity reached peak values within the phase-change temperature range and the temperature peak value was consistent with the peak value of the phase-change temperature. The effective thermal conductivity increased with increasing density due to the decreased porosity of samples and their increased solid-phase conduction.
引用
收藏
页码:257 / 260
页数:4
相关论文
共 50 条
  • [1] Study on the heat conduction of phase-change material microcapsules
    Gangtao Zhao
    Xiaohui Xu
    Lin Qiu
    Xinghua Zheng
    Dawei Tang
    Journal of Thermal Science, 2013, 22 : 257 - 260
  • [2] Study on the Heat Conduction of Phase-Change Material Microcapsules
    Zhao, Gangtao
    Xu, Xiaohui
    Qiu, Lin
    Zheng, Xinghua
    Tang, Dawei
    JOURNAL OF THERMAL SCIENCE, 2013, 22 (03) : 257 - 260
  • [3] Preparation and Properties of High Thermostability Phase-change Material Microcapsules
    Zhang, Guo-Qing
    Cai, Chang-Wei
    Zhu, Guo-Cheng
    Wang, Yi-Lai
    Zhou, Lan
    Liu, Guo-Jin
    Militky, Jiri
    Prasad, Mohanapriya
    Yao, Ju-Ming
    TEXTILE BIOENGINEERING AND INFORMATICS SYMPOSIUM (TBIS) PROCEEDINGS, 2018, 2018, : 840 - 847
  • [4] Controlled Latent Heat Phase-Change Microcapsules for Temperature Regulation
    Li, Chen
    Fu, Jijie
    Huang, Fangsheng
    Zhu, Zhiqiang
    Si, Ting
    ACS APPLIED MATERIALS & INTERFACES, 2023, 15 (25) : 30383 - 30393
  • [5] HEAT-CONDUCTION WITH A PHASE-CHANGE IN A CYLINDRICAL MOLD
    GUPTA, SC
    LAHIRI, AK
    INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE, 1979, 17 (04) : 401 - 407
  • [6] A phase-change problem for an extended heat conduction model
    D'Acunto, B
    De Angelis, M
    MATHEMATICAL AND COMPUTER MODELLING, 2002, 35 (7-8) : 709 - 717
  • [7] Accelerating phase-change heat conduction simulations on GPUs
    Liu, Xiao-Yu
    Xie, Zhi
    Yang, Jian
    Meng, Hong-Ji
    CASE STUDIES IN THERMAL ENGINEERING, 2022, 39
  • [8] ON ENTROPY GENERATION IN PHASE-CHANGE HEAT-CONDUCTION
    CHARACH, C
    RUBINSTEIN, IL
    JOURNAL OF APPLIED PHYSICS, 1989, 66 (09) : 4053 - 4061
  • [9] HEAT TRANSFERENTIAL STUDY ON A HEAT-STORAGE CONTAINER WITH PHASE-CHANGE MATERIAL
    YANADORI, M
    MASUDA, T
    SOLAR ENERGY, 1986, 36 (02) : 169 - 177
  • [10] Heat Transfer of Heat Sinking Vest with Phase-change Material
    Qiu Yifen
    Jiang Nan
    Wu Wei
    Zhang Guangwei
    Xiao Baoliang
    CHINESE JOURNAL OF AERONAUTICS, 2011, 24 (06) : 720 - 725
12345