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Heat transfer at film condensation of stationary vapor with nanoparticles near a vertical plate.

Author(s) : AVRAMENKO A. A., SHEVCHUK I. V., TYRINOV A. I., et al.

Type of article: Article

Summary

Processes of momentum, heat and mass transfer at the condensation of the stationary vapor with nanoparticles near a vertical plate were investigated using an approximate analytical model. This model extends the classical model of Nusselt by way of the inclusion of an equation for the nanoparticle concentration and a dependence of the nanofluid density on the nanoparticles concentration. Thus, mechanisms of the Brownian and thermophoretic diffusion are incorporated. The essential novelty lies in the identification of three main dimensionless parameters, which describe the influence of nanoparticles on heat transfer and fluid flow. They are (i) the parameter A that denotes the relation between the mechanisms of the thermophoretic and Brownian diffusion, (ii) the concentration f8 of nanoparticles in the vapor, and (iii) the ratio R of the densities of the nanoparticles and the fluid. Novel analytical solutions were derived that describe velocity profiles, the mass flow rate and the thickness of the film as the functions of the parameters A, f8 and R. Finally, a novel analytical solution for the normalized Nusselt number was obtained as a function of the aforementioned three dimensionless parameters. An increase in each of these parameters causes an increase in the normalized Nusselt number.

Details

  • Original title: Heat transfer at film condensation of stationary vapor with nanoparticles near a vertical plate.
  • Record ID : 30014543
  • Languages: English
  • Source: Applied Thermal Engineering - vol. 73 - n. 1
  • Publication date: 2014/12
  • DOI: http://dx.doi.org/10.1016/j.applthermaleng.2014.07.070

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