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   Assessment of Particle-Size and Temperature Effect of Nanofluid on Heat Transfer Adopting Lattice Boltzmann Model  
   
نویسنده Shahriari A. ,Jahantigh N. ,Rakani F.
منبع International Journal Of Engineering - 2018 - دوره : 31 - شماره : 10 - صفحه:1749 -1759
چکیده    The investigation of the effect of nanoparticles’ mean diameter and temperature of al2o3–water nanofluid on velocity and energy field using the lattice boltzmann method is the main objective of this study. the temperature of the vertical walls is considered constant at tc and th, respectively, while the up and the down horizontal surfaces are smooth and insulated against heat and mass. the influences of grashof number (10^3, 10^4, 10^5) prandtl number (pr=3.42, 5.83), the various volume fraction of nanoparticles (φ=0, 0.01, 0.03, 0.05) and particle-size (dp= 24, 47, 100 nm) were carried out on heat transfer and flow fields. it was concluded that addition of nanoparticles causes a significantly affect on temperature and flow fields. the decrement of heat transfer is observed with the increment of solid volume fraction, but it increases when grashof number and nanoparticles’ mean diameter increase. the decrement of nanoparticles’ mean diameter and prandtl number have the same effect on nusselt number. in addition, it was resulted that the thermal conductivity model had insignificantly impact on the mean nusselt number than the dynamic viscosity model.
کلیدواژه Nanoparticles Mean Diameter ,Natural Convection ,Nanofluid ,Lattice Boltzmann Model
آدرس University Of Zabol, Department Of Mechanical Engineering, Iran, University Of Zabol, Department Of Mechanical Engineering, Iran, University Of Sistan & Baluchestan, Department Of Computer Sciences, Iran
 
     
   
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