Internally heated convection and Rayleigh-Bénard convection [CL]

http://arxiv.org/abs/1506.01656


This work reviews basic features of both internally heated (IH) convection and Rayleigh-B\’enard (RB) convection, along with findings on IH convection from laboratory experiments and numerical simulations. In the first chapter, six canonical models of convection are described: three configurations of IH convection driven by constant and uniform volumetric heating, and three configurations of RB convection driven by the boundary conditions. The IH models are distinguished by differing pairs of thermal boundary conditions: top and bottom boundaries of equal temperature, an insulating bottom with heat flux fixed at the top, and an insulating bottom with temperature fixed at the top. The RB models also are distinguished by whether temperatures or heat fluxes are fixed at the top and bottom boundaries. Integral quantities important to heat transport are discussed, including the mean fluid temperature, the mean temperature difference between the boundaries, and the mean convective heat transport. Integral relations and bounds are presented, and further bounds are conjectured for the IH cases. The second chapter presents results that can be derived mathematically from the governing equations: linear and nonlinear stability thresholds of static states, and parameter-dependent bounds. Known bounds are on mean temperatures in IH convection and on convective transport in RB convection. The third chapter reviews numerical simulations and laboratory experiments on IH convection, emphasizing quantitative results.

Read this paper on arXiv…

D. Goluskin
Fri, 5 Jun 15
36/63

Comments: 3 chapters. 66 pages. Unpublished draft