2003
DOI: 10.1108/09615530310501957
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Benchmark solutions for the natural convective heat transfer problem in a square cavity with large horizontal temperature differences

Abstract: In this study, Benchmark solutions are derived for the problem of two-dimensional laminar flow of air in a square cavity which is heated on the left, cooled on the right and insulated on the top and bottom boundaries. The temperature differences between the hot and cold walls are large. Neither Boussinesq nor low-Mach number approximations of the Navier-Stokes equations are used. The ideal-gas law is used and the viscosity is given by Sutherland's law. A constant Prandtl number is assumed. The computational me… Show more

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Cited by 56 publications
(84 citation statements)
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“…The internal flow was considered to be two dimensional, steady and laminar (Baïri et al 2007;Khezzar et al 2011;Lartigue et al 2000;Davis 1983;Souza et al 2003;Vierendeels et al 2003;Corcione 2003;Lee and Ha 2005). The external flow was also considered to occur in the laminar regime because the Reynolds number along the geometry length is always lower than the critical value of 3.5×10 5 , for all conditions considered in this study (Coulson et al 1999;Lienhard and Lienhard 2003).…”
Section: Modelling Assumptions and Approachmentioning
confidence: 99%
“…The internal flow was considered to be two dimensional, steady and laminar (Baïri et al 2007;Khezzar et al 2011;Lartigue et al 2000;Davis 1983;Souza et al 2003;Vierendeels et al 2003;Corcione 2003;Lee and Ha 2005). The external flow was also considered to occur in the laminar regime because the Reynolds number along the geometry length is always lower than the critical value of 3.5×10 5 , for all conditions considered in this study (Coulson et al 1999;Lienhard and Lienhard 2003).…”
Section: Modelling Assumptions and Approachmentioning
confidence: 99%
“…A uniform mesh of 80×80 B27 elements is used to discretize the domain, and the steady-state solution is found directly using Equation (5) in five 'loadsteps' with about six iterations per loadstep. The vertical velocity and temperature variations (normalized as v y /0.05021228 and ( −600)/600, respectively) along the line y = 0.5 are shown in Figure 10, and should be compared with the benchmark solutions in Reference [21] (p. 1067). One can see that the agreement is very good inspite of using a uniform and coarse mesh.…”
Section: Two-dimensional Natural Convectionmentioning
confidence: 99%
“…Additionally heat and fluid flow in a square cavity are a standard test case for code validation. This is well-known in the field of applied mathematics and numerical methods [2,3].…”
mentioning
confidence: 94%