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Particle size distribution of TBPB hydrates by focused beam reflectance measurement (FBRM) for secondary refrigeration application

The present work investigates TBPB (tetra-n-butylphosphonium bromide) hydrate slurries based on focused beam reflectance measurement (FBRM) method. Hydrates can be used as phase change materials (PCM) for thermal energy storage due to their high latent heat of melting. In this study, hydrates were f...

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Bibliographic Details
Published in:International journal of refrigeration 2015-02, Vol.50, p.19-31
Main Authors: Clain, Pascal, Ndoye, Fatou Toutie, Delahaye, Anthony, Fournaison, Laurence, Lin, Wei, Dalmazzone, Didier
Format: Article
Language:English
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Summary:The present work investigates TBPB (tetra-n-butylphosphonium bromide) hydrate slurries based on focused beam reflectance measurement (FBRM) method. Hydrates can be used as phase change materials (PCM) for thermal energy storage due to their high latent heat of melting. In this study, hydrates were formed from TBPB-water mixtures, suitable for air-conditioning applications. Moreover, hydrate slurries, composed of hydrate-particles dispersed in liquid, are appropriate solutions for cold distribution. Nevertheless, flow properties of hydrate slurries, depending on hydrate crystallization kinetics, must be controlled. In this work, FBRM was used for analysing TBPB-hydrate-particle size distribution. This work showed that FBRM can detect system phase changes (nucleation, growth, agglomeration). In addition, a bimodal distribution of particles was observed. This work could be useful to understand rheological behaviour of hydrate slurry, not only for secondary refrigeration applications, but also for natural gas hydrate transportation, pipeline plugging prevention, and gas capture. •Hydrate crystallization a key-parameter for controlling hydrate-based systems.•TBPB hydrate nucleation, growth, and agglomeration was measured by FBRM.•A bimodal distribution of TBPB hydrate chord length was observed.•Single TBPB hydrate size is between 60 and 70 μm.•A second mode is detected at around 150 μm.
ISSN:0140-7007
1879-2081
DOI:10.1016/j.ijrefrig.2014.10.016