4.6 Article

Ternary composite phase change materials (PCMs) towards low phase separation and supercooling: eutectic behaviors and application

Journal

ENERGY REPORTS
Volume 8, Issue -, Pages 2646-2655

Publisher

ELSEVIER
DOI: 10.1016/j.egyr.2021.12.069

Keywords

Phase change materials; Ternary salt-water solution; Phase separation; Frozen food storage

Categories

Funding

  1. Engineering and Physical Sciences Research Council, UK [EP/S030786/1]
  2. National Natural Science Foundation of China [51976126, 51406121]

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In this study, a novel composite phase change material (PCM) consisting of a mixed solution of inorganic salt and organic salt was developed and characterized. Different weight percentages of sodium formate, potassium chloride, and water were evaluated to determine the optimal performance. The addition of xanthan gum and nano-TiO2 as gelling and nucleating agents, respectively, effectively improved the properties of the PCM by preventing phase separation, leakage, and reducing supercooling. The tested PCM showed excellent suitability for frozen food storage and transportation.
Salt hydrates have been used as phase change materials (PCMs) for various types of Thermal Energy Storage (TES) especially for cold storage. In this project, a novel composite phase change material (PCM) consisted of mixed solution of inorganic salt and organic salt was developed and characterized. Firstly, the PCM solutions containing sodium formate, potassium chloride and water with various weight percentage were evaluated to understand their solidification temperature, melting temperature, the supercooling degree and the latent heat. Then a PCM with mass fractions at weight percentages of 22%/12%/66% with better performance was selected for further study to restrain the supercooling. Different gelling agents and nucleate agents were employed in this PCM. The results show that the addition of 0.6 wt% xanthan gum can effectively prevent the phase separation and leakage, while 0.6 wt% of nano-TiO2 is the best nucleating agent since the supercooling can be reduced to 2.6 ?, which is 67.9% lower than that of the original PCM without any nucleating agent. Finally, the novel PCM was tested for frozen food storage application, in which the food temperature could be maintained below -18 ?& nbsp;for over 10 hours in the insulated box. This indicated the suitability of developed PCM for frozen food storage and transportation. (c) 2022 The Authors. Published by Elsevier Ltd.

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