%0 Journal Article
%T Natural convection and entropy generation of ultrafine atmospheric aerosols in the presence of hydrodynamic partial slip and thermal radiation due to solar energy
%J Scientia Iranica
%I Sharif University of Technology
%Z 1026-3098
%A Ghaffarpasand, O.
%D 2017
%\ 06/01/2017
%V 24
%N 3
%P 1686-1705
%! Natural convection and entropy generation of ultrafine atmospheric aerosols in the presence of hydrodynamic partial slip and thermal radiation due to solar energy
%K Aerosol particles
%K Natural convection of nano fluids
%K Partial slip
%K thermal radiation
%K Heatline visualization
%K entropy generation
%R 10.24200/sci.2017.4145
%X Combined eects of hydrodynamic partial slip, thermal radiation due to solar energy, and nanoparticles volume fraction on natural convection and entropy generation of atmospheric ultrane aerosols sample enclosed within a two-sided lid-driven cavity are studied numerically in the present contribution. Partial slip eect is taken intoaccount along the two horizontal moving walls, and thermal radiation is considered through Rosseland approximation. The governing equations are solved using an accurate finite volume method based on SIMPLE algorithm. The impact of Brownian motion of nanoparticles is also considered in this study, whereby KKL (Koo-Kleinstreuer-Li) correlation is utilized for simulating the eective thermal conductivity and viscosity of nanouid. The heatline visualization technique is also utilized to study the energy flux within the cavity. A comprehensive study is conducted on the controlling parameters, including partial slip coecient ( = 0 5), radiation parameter (Rd = 0 2), and nanoparticles volume fraction ( = 0 4%), which influence the ow and heat transfer characteristics. Results show that the partial slip usually eliminates the effect of mechanical forces provoked by the moving lids. Moreover, thermal radiation homogenizes the mediumthermally, which results in decreasing the average entropy generation. It is also observed that the eect of carbon-black nanoparticles on the atmospheric heat transfer manifests a wide variety of fashions mainly dependent on the presence or absence of thermal radiation due to solar energy.
%U https://scientiairanica.sharif.edu/article_4145_17b18ba5209da4c182a3ea1c644028ed.pdf