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STUDY THE NATURAL CONVECTION COOLING OF A LOCALIZED HEAT SOURCE AT THE BOTTOM OF A SQUARE CAVITY USING SPH METHOD

Research Authors
M. A. Mansour1, M. A. Y. Bakier1, Abdelraheem M. Aly2
Research Abstract

In this paper, the buoyancy-driven fluid flow and heat transfer in a square cavity with partially active side walls are investigated numerically. The top and vertical walls of the cavity are maintained at the relatively low temperature. The governing partial differential equations have been described in smoothed particle hydrodynamics formulations. The transport equations for a Newtonian fluid are solved numerically using smoothed particle hydrodynamics (SPH) method. The results indicate the relation among changes taking part in the heat source length, heat source location, Rayleigh number, maximum temperature and maximum value of stream function and velocities.

Research Department
Research Journal
Energy & Technology
Research Rank
2
Research Vol
Vol. 4 - No. 24
Research Year
2012
Research Pages
pp. 1–8