Considering equipment damage, energy consumption enhancement and efficiency reduction during undesirable solidification process, this paper experimentally investigated the ability of clay nanoparticles to hinder the solidification procedure. The nanofluids were prepared by dispersing various concentrations of clay nanoparticles (0.01 wt.%, 0.02 wt.% and 0.04 wt.%) in deionized water without any dispersants. The solidification characteristics of nanofluids were determined by using cooling generator system. The experimental results of clay nanofluids showed a reduction in the nucleation temperature and an enhancement of supercooling degree of about 25% during solidification process due to reduction in heat transport properties. According to the comparison results, it was construed that providing supercooling condition, lower density nanoparticles aremore able to advance in nucleation phenomenon and also higher thermal conductivity nanoparticles have more tendency to reduce supercooling degree. Therefore, considering desirable and undesirable solidification, the best possible candidate of nanoparticles can be utilized based on their thermophysical properties

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