A new kind of phase change material (PCM) for energy-storing wallboard

A new kind of phase change material (PCM) for energy-storing wallboard is introduced in this paper. By establishing the one-dimensional non-linear mathematical model for heat conduction of the PCM energy-storing wallboard and according to the “effective heat capacity method”, simulation and calculat...

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Bibliographic Details
Published inEnergy and buildings Vol. 40; no. 5; pp. 882 - 890
Main Authors Chen, Chao, Guo, Haifeng, Liu, Yuning, Yue, Hailin, Wang, Chendong
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 2008
Elsevier
Subjects
Applied sciences
Buildings
Buildings. Public works
Computation methods. Tables. Charts
Effective heat capacity method
Energy conservation
Exact sciences and technology
Experiment
External envelopes
Heat transfer of PCM
Materials
Miscellaneous (including polymer concrete, repair and maintenance products, etc.)
New PCM energy-storing wallboard
Structural analysis. Stresses
Wall covering (rendering, paint, wall paper)
Effective heat capacity method
Heat transfer of PCM
Energy conservation
New PCM energy-storing wallboard
Experiment
Performance evaluation
Wall covering
Heat capacity
Theoretical study
Experimental study
Composite material
Paper
PCM material
Computing method
Heat transfer
Energy storage
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Summary:A new kind of phase change material (PCM) for energy-storing wallboard is introduced in this paper. By establishing the one-dimensional non-linear mathematical model for heat conduction of the PCM energy-storing wallboard and according to the “effective heat capacity method”, simulation and calculation were made using the software MATLAB to analyze and solve the heat transfer problem of the PCM room. Meanwhile, the property can be found that the heat storing/releasing ability of the new PCM is significantly higher than that of ordinary materials by the experiment-based method. The result indicates that applying proper PCM to the inner surface of the north wall in the ordinary room can not only enhance the indoor thermal-comfort dramatically, but also increase the utilization rate of the solar radiation. So the heating energy consuming is decreased and the goal of saving energy has been achieved. If the parameters of the PCM is given as follows: the phase change temperature is set at 23 °C, the thickness is set at 30 mm, the phase change enthalpy is set at 60 kJ/kg, and the heating temperature is set at 20 °C, the energy-saving rate of heating season η can get to 17% or higher. So the energy is effectively used and saved obviously.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2007.07.002