NASA/TP-209576, Hart*, J.E. and Ohlsen*, D. and Kittelman*, S. and Borhani*, N. and Leslie, F. and Miller, T., The Geophysical Fluid Flow Cell Experiment, Microgravity Sciences and Applications Department, Science Directorate, NASA Marshall Space Flight Center, AL 35812, and*University of Colorado, Boulder, CO 80309, September 1999, pp. 107, Format(s): PDF 12186k |
The Geophysical Fluid Flow Cell (GFFC) experiment performed visualizations of thermal convection in a rotating differentially heated spherical shell of fluid. In these experiments dielectric polarization forces are used to generate a radially directed buoyancy force. This enables the laboratory simulation of a number of geophysically and astrophysically important situations in which sphericity and rotation both impose strong constraints on global scale fluid motions. During USML-2 a large set of experiments with spherically symmetric heating were carried out. These enabled the determination of critical points for the transition to various forms of nonaxisymmetric convection and, for highly turbulent flows, the transition latitudes separating the different modes of motion. This paper presents a first analysis of these experiments as well as data on the general performance of the instrument during the USML-2 flight
| Keywords: | spherical convection, microgravity of fluid dynamics, planetary atmospheres |
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| Subjects: | Engineering: Fluid Mechanics and Thermodynamics: Heat Transfer, Basic |
| ID Code: | 492 |
| Deposited On: | 24 July 2002 |