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HEAT TRANSFER PHOTOGALLERY

# Evaporation and Dryout of Nanofluid Droplets on a Microheater ArrayPUBLIC ACCESS

[+] Author and Article Information
C. H. Chon, S. W. Paik, J. B. Tipton, K. D. Kihm

Micro/Nano Scale Fluidics and Energy Transport Laboratory [http://minsfet.utk.edu], Department of Mechanical, Aerospace, and Biomedical Engineering,  University of Tennessee, Knoxville, Tennessee

J. Heat Transfer 128(8), 735 (Aug 01, 2006) (1 page) doi:10.1115/1.2221298 History:

## Abstract

Nanofluid, a mixture of small concentration of metallic nanoparticles in a base fluid, is known to have substantial enhancement in thermal conductivity compared with that of the base fluid. The evaporation processes of different nanofluid droplets, all for 5-μl, 0.5 vol. % concentration and onto the micro-heater array at 80°C, are visualized to examine the effect of nanoparticle sizes on the dryout characteristics. While the distilled water droplet evaporates evenly in an axi-symmetric way, dryout patterns of the nanofluids containing nanoparticles (2-nm Au, 30-nm CuO, and 11-nm and 47-nm diameter $Al2O3$) are different in leaving concentric rims of dried nanoparticles near the initial wet-surface boundary. The formation of the rim is the most distinctive for the case of nanofluid containing 47-nm $Al2O3$, whereas the rims are less pronounced and more spreading for nanofluids containing smaller nanoparticles. For nanofluid containing 2-nm Au particles, the deposition is thicker and more uniform toward the droplet inner area in comparison with the other nanofluids containing larger nanoparticles. This is believed to be due to its slower flow and higher viscosity as a result of higher particle population, and high specific gravity.

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