Journal of Science: Advanced Materials and Devices (Mar 2019)
Role of graphene nanofluids on heat transfer enhancement in thermosyphon
Abstract
The thermophysical properties of graphene nanofluids in thermosyphon have been studied at different power inputs, temperatures and angles of inclination. The thermal conductivity of the graphene nanofluid is found to be 29% higher than that of the deionized water at 45 °C. The viscosity of the graphene nanofluid increased with the concentration of graphene nanoparticles and decreased with increasing the temperature. It is observed that the wall temperature distribution of graphene nanofluid is found to be decreased in comparison to that of deionised water. The thermal resistance of thermosyphon is reduced with increasing the power input and irrespective of the inclination angle. Keywords: Graphene platelet nanoparticle, Thermosyphon, Thermal conductivity, Viscosity, Thermal resistance
