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https://doi.org/10.15255/CABEQ.2014.2069

Application of Spherical Copper Oxide (II) Water Nano-fluid as a Potential Coolant in a Boiling Annular Heat Exchanger

V. Nikkhah ; Faculty of Chemical, Petroleum and Gas Engineering, Semnan University, Semnan, Iran
M. M. Sarafraz orcid id orcid.org/0000-0002-6347-0216 ; Faculty of Chemical, Petroleum and Gas Engineering, Semnan University, Semnan, Iran
F. Hormozi ; Faculty of Chemical, Petroleum and Gas Engineering, Semnan University, Semnan, Iran


Puni tekst: engleski pdf 4.440 Kb

str. 405-415

preuzimanja: 885

citiraj


Sažetak

Convective boiling heat transfer coefficient of spherical CuO (II) nanoparticles dispersed in water is experimentally quantified inside the vertical heat exchanger. Influence of different operating parameters including applied heat and mass fluxes, sub-cooling
temperature and concentration of nano-fluid on forced convection and nucleate boiling heat transfer mechanisms is experimentally investigated and briefly discussed. Results show that by increasing heat and mass fluxes, the heat transfer coefficient considerably
increases for both heat transfer regions, while by increasing the nanoparticle weight concentration, the heat transfer coefficient increases in convective heat transfer (about 35 % at the maximum concentration) and deteriorates the heat transfer coefficient (about 9 % at maximum concentration) in nucleate boiling region due to the formation of nanoparticle deposition on heating surface. Experimental results are then compared to well-known correlations. Results of comparisons reveal good agreement between experimental data
and those obtained by some correlations. In addition, thermo-physical properties of CuO nano-fluid are experimentally measured and represented, which are a good reference for other nano-fluid-related studies.

Ključne riječi

convection; nucleate boiling; nano-fluids; heat transfer enhancement; heat transfer deterioration

Hrčak ID:

147006

URI

https://hrcak.srce.hr/147006

Datum izdavanja:

14.10.2015.

Posjeta: 2.036 *