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Preparation of phase change material emulsions with good stability and little supercooling by using a mixed polymeric emulsifier for thermal energy storage

A mixed polymeric emulsifier consisting of polyvinyl alcohol (PVA) and polyethylene glycol-600 (PEG-600) was explored for preparing high-performance phase change material emulsions (PCMEs) containing the paraffin with a melting point of 62–64°C. After the effects of the mass ratio of PVA to PEG-600,...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2018-03, Vol.176, p.381-390
Main Authors: Wang, Fangxian, Fang, Xiaoming, Zhang, Zhengguo
Format: Article
Language:English
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Summary:A mixed polymeric emulsifier consisting of polyvinyl alcohol (PVA) and polyethylene glycol-600 (PEG-600) was explored for preparing high-performance phase change material emulsions (PCMEs) containing the paraffin with a melting point of 62–64°C. After the effects of the mass ratio of PVA to PEG-600, the mass ratio of the mixed emulsifier to the paraffin and the homogenization rate on the size distribution, viscosity and dispersion stability of the PCMEs containing 20wt% paraffin were systematically investigated, the optimal emulsifying process parameters have been determined to be the mass ratio of PVA to PEG-600 of 50:50, the mass ratio of the mixed emulsifier to paraffin of 1:5 and the homogenization rate of 10,000rpm. Accordingly, the PCMEs with the paraffin mass fractions varying from 10wt% to 30wt% were prepared. It is found that the paraffin has been well dispersed in water in the form of sphere-like droplets with average diameters ranging from 3µm to 11µm in the obtained PCMEs. Significantly, the PCMEs with different mass fractions of the paraffin exhibit no supercooling, owing to the function of the mixed polymeric emulsifier as a nucleating agent. The apparent specific heat of PCMEs are 1.51–2.18 times as high as that of water at the phase transition temperature region, due to the existent of the paraffin in them. Their apparent thermal conductivity gradually decreases with an increase in the mass fraction of the paraffin, while the viscosity increases significantly with mass fraction of the paraffin at the same temperatures. Furthermore, the pumping power consumption of the PCMEs shows a drastic reduction as compared to that of water at the same heat storage capacity. It is revealed that the PCMEs show great potential for use as a novel heat transfer fluid (HTF) in thermal energy storage (TES) systems. •A mixed polymeric emulsifier was systematically explored for preparing PCMEs.•The PCMEs exhibit good stability.•The polymeric emulsifier contributes little supercooling.•The apparent specific heat of PCMEs are 1.51–2.18 times higher than water.•The PCME can be used as the heat transfer fluid in a thermal energy storage system.
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2017.10.025