Kyong-Soo Hong scite author profile

Nanofluids have been attractive for the last few years with the enormous potential to improve the efficiency of heat transfer fluids. This work focuses on the effect of the clustering of nanoparticles on the thermal conductivity of nanofluids. Large enhancement of the thermal conductivity is observed in Fe nanofluids sonicated with high powered pulses. The average size of the nanoclusters and thermal conductivity of sonicated nanofluids are measured as time passes after the sonication stopped. It is found from the variations of the nanocluster size and thermal conductivity that the reduction of the thermal conductivity of nanofluids is directly related to the agglomeration of nanoparticles. The thermal conductivity of Fe nanofluids increases nonlinearly as the volume fraction of nanoparticles increases. The nonlinearity is attributed to the rapid clustering of nanoparticles in condensed nanofluids. The thermal conductivities of Fe nanofluids with the three lowest concentrations are fitted to a linear function. The Fe nanofluids show a more rapid increase of the thermal conductivity than Cu nanofluids as the volume fraction of the nanoparticles increases.

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Infarcted Myocardium-Primed Dendritic Cells Improve Remodeling and Cardiac Function After Myocardial Infarction by Modulating the Regulatory T Cell and Macrophage Polarization

Choo

et al. 2017

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Study of thermal conductivity of nanofluids for the application of heat transfer fluids

2007

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Electron-phonon interactions in insulating nanoparticles:Eu2O3

Meltzer

Hong

2000

Phys. Rev. B

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Electron–phonon interaction in rare earth doped nanocrystals

Yang

Hong

Feofilov

et al. 1999

Journal of Luminescence

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Kyong-Soo Hong

Thermal conductivity of Fe nanofluids depending on the cluster size of nanoparticles

Infarcted Myocardium-Primed Dendritic Cells Improve Remodeling and Cardiac Function After Myocardial Infarction by Modulating the Regulatory T Cell and Macrophage Polarization

Study of thermal conductivity of nanofluids for the application of heat transfer fluids

Electron-phonon interactions in insulating nanoparticles:Eu2O3

Electron–phonon interaction in rare earth doped nanocrystals

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