Energy Storage Science and Technology ›› 2017, Vol. 6 ›› Issue (4): 607-622.doi: 10.12028/j.issn.2095-4239.2017.0076

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Phase change microcapsules in thermal Energy applications: A critical review

XIAO Anna1, YUAN Qingchun 2   

  1. 1GSK, Global Manufacturing and Supply, Ware SG12 0DP, United Kingdom; 2Aston Material Research Institute, Aston University, Aston Triangle, Birmingham B4 7ET, United Kingdom
  • Received:2017-05-15 Online:2017-07-01 Published:2017-06-13
  • Contact: YUAN Qingchun, lecturer in chemical engineering, research in the development of advanced materials for energy and environment applications. E-mail: q.yuan@aston.ac.uk.
  • About author:XIAO Anna (1991—), female, project engineer, interested in new technologies and materials, sustainable energy and applications.

Abstract: Phase change microcapsules can carry large amounts of heat and be dispersed into other mediums either as a solid composite or as slurry fluids without changes to their appearance or fluidity. These two standout features make phase change microcapsules ideal for use in thermal energy applications to enhance the efficiency of energy utilisation. This review paper includes methods used for the encapsulation of phase change materials, especially the method suitable for large scale productions, the trends of phase change microcapsule development and their use in thermal energy applications in static and dynamic conditions. The effect of phase change microcapsules on convective heat transfer through addition to thermal fluids as slurries is critically reviewed. The review highlighted that so far the phase change microcapsules used mainly have polymeric shells, which has very low thermal conductivities. Their enhancement in convective heat transfer was demonstrated in locations where the phase change material experiences phase change. The phase change results in the slurries having higher apparent local specific heat capacities and thus higher local heat transfer coefficients. Out of the phase change region, no enhancement is observed from the solid microcapsule particles due to the low specific heat capacity and thermal conductivity of the phase change microcapsules compared to that of water, which is normally used as slurry media in the test. To further the research in this area, phase change microcapsules with higher specific heat capacity, higher thermal conductivity and better shape stability need to be applied.   

Key words: phase change microcapsule, complex microencapsulation, slurry, phase change patterns, convective heat transfer enhancement