Abstract:

In this study, the size effects of the Graphene nanoparticles (GNP) doped into a paraffin type organic phase change material (PCM) on thermal properties were examined. The thermal conductivities, melting/solidification temperatures and melting/solidification latent heats of the GNP/PCM composites, which were obtained by incorporating GNP nanoparticles with three different sizes into an organic PCM in mass fractions of 1%, 3% and 5%, were measured. The changes obtained in thermal properties were determined by referring to the non-doped PCM data. The results obtained showed that in low PCM mass fractions, thermal conductivity enhancement was a function of both surface area and thickness of the GNP nanoparticles. In addition, it was determined that thicker nanoparticles formed a more efficient conduction network at high PCM fractions. The reflections of the enhancements obtained in thermal conductivity on thermal performance were also determined in the study.  Enhancements in thermal conductivity depending on the increase in thickness of GNP were obtained as 6.3%, 107.5% and 113.7% for 5% GNP(1-5nm)/ PCM, 5% GNP(6-8nm)/PCM and 5% GNP(11-15nm)/PCM composites, respectively. These thermal conductivity enhancements resulted performance increase in the energy storage unit around 5.5%, 18.3% and 20% respectively.

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