A review of stability, thermophysical properties and impact of using nanofluids on the performance of refrigeration systems Synthèse de la stabilité, des propriétés thermophysiques et de l'impact de l'utilisation de nanofluides sur les performances des systèmes frigorifiques


Yıldız G., Ağbulut Ü., Gürel A. E.

International Journal of Refrigeration, vol.129, pp.342-364, 2021 (SCI-Expanded) identifier

  • Publication Type: Article / Review
  • Volume: 129
  • Publication Date: 2021
  • Doi Number: 10.1016/j.ijrefrig.2021.05.016
  • Journal Name: International Journal of Refrigeration
  • Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED), Scopus, Academic Search Premier, PASCAL, CAB Abstracts, Food Science & Technology Abstracts, INSPEC, Veterinary Science Database
  • Page Numbers: pp.342-364
  • Keywords: Nanolubricant, Nanorefrigerant, Performance, Refrigeration system, Thermal properties
  • Yıldız Technical University Affiliated: No

Abstract

The popularity of the studies on improving the thermal properties of base fluids in thermal engineering applications is considerably increasing day by day. Recently, many researchers have proved that the use of nanoparticles along with the base fluids exhibits better thermal properties as well as better system performance. In line with this, it is noticed a respectful increase in the number of studies regarding nanoparticle use in refrigeration systems. Accordingly, the present paper aims to summarize the preparation of nanofluids, the variation of thermophysical properties, the stability of nanofluids, impacts on the system performances of nanofluid usage, limitations, and challenges of nanoparticle usage, particularly in the refrigeration systems. Previous studies revealed that the heat transfer mechanism of the lubricants and refrigerants is highly improved with nanoparticle addition. It is observed that the increase in thermal properties becomes more visible as nanoparticle fractions increase, but this case may worsen the viscosity of nanofluids. The enhanced thermal properties contribute to improving refrigeration system performance. Many papers emphasize that nanoparticle-doping triggers an increase in system performance by both reducing the compressor power input and increasing the cooling capacity of the refrigeration systems. However, some critical points such as stability, homogeneous distribution, agglomeration, and sedimentation considerably influence the sustainability of performance improvement. In conclusion, nanoparticle-doping for refrigeration systems can be accepted as a very promising way of improving the performance, nevertheless, some questions such as high cost, toxic effect, poor stabilization, erosion effect, high viscosity, clogging issues should be more addressed in the future.