Heat transport by turbulent Rayleigh-B\'enard convection for \ 0.8 and 3× 1012 \ 1015: Aspect ratio = 0.50

Abstract

We report experimental results for heat-transport measurements, in the form of the Nusselt number , by turbulent Rayleigh-B\'enard convection in a cylindrical sample of aspect ratio D/L = 0.50 (D = 1.12 m is the diameter and L = 2.24 m the height). The measurements were made using sulfur hexafluoride at pressures up to 19 bars as the fluid. They are for the Rayleigh-number range 3× 1012 1015 and for Prandtl numbers \ between 0.79 and 0.86. For < *1 1.4× 1013 we find = N0 γeff with γeff = 0.312 0.002, consistent with classical turbulent Rayleigh-B\'enard convection in a system with laminar boundary layers below the top and above the bottom plate. For *1 < < *2 (with *2 5× 1014) γeff gradually increases up to 0.37 0.01. We argue that above *2 the system is in the ultimate state of convection where the boundary layers, both thermal and kinetic, are also turbulent. Several previous measurements for = 0.50 are re-examined and compared with the present results.