2016
DOI: 10.15866/ireme.v10i3.8531
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Numerical Study of Natural Convection-Surface Radiation Coupling in Air-Filled Square Cavity Using the Gauss’s Theorem on Triangular Meshes

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“…The Boussinesq approximation model used in Equation (2) converges faster than expressing the density of a liquid as a function of temperature in the numerical solutions. This model treats density as a constant parameter in all equations, and only the buoyancy term in the angular momentum equation uses Equation (5) 26 : (ρρ0)gρ0β(TT0). $(\rho -{\rho }_{0})g{\rho }_{0}\beta (T-{T}_{0}).$…”
Section: Mathematical Modelingmentioning
confidence: 99%
“…The Boussinesq approximation model used in Equation (2) converges faster than expressing the density of a liquid as a function of temperature in the numerical solutions. This model treats density as a constant parameter in all equations, and only the buoyancy term in the angular momentum equation uses Equation (5) 26 : (ρρ0)gρ0β(TT0). $(\rho -{\rho }_{0})g{\rho }_{0}\beta (T-{T}_{0}).$…”
Section: Mathematical Modelingmentioning
confidence: 99%