9 research outputs found

    Aspect ratio dependence of heat transfer and large-scale flow in turbulent convection

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    The heat transport and corresponding changes in the large-scale circulation (LSC) in turbulent Rayleigh-B\'{e}nard convection are studied by means of three-dimensional direct numerical simulations as a function of the aspect ratio Γ\Gamma of a closed cylindrical cell and the Rayleigh number RaRa. For small and moderate aspect ratios, the global heat transfer law Nu=A×RaβNu=A\times Ra^{\beta} shows a power law dependence of both fit coefficients AA and β\beta on the aspect ratio. A minimum Nusselt number coincides with the point where the LSC undergoes a transition from a single-roll to a double-roll pattern. With increasing aspect ratio, we detect complex multi-roll LSC configurations. The aspect ratio dependence of the turbulent heat transfer for small and moderate Γ\Gamma is in line with a varying amount of energy contained in the LSC, as quantified by the Proper Orthogonal Decomposition analysis. For Γ≳8\Gamma\gtrsim 8 the heat transfer becomes independent of the aspect ratio.Comment: 17 pages, 11 Postscript figures (in parts downscaled), accepted for J. Fluid Mec

    New perspectives in turbulent Rayleigh-BĂ©nard convection

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