Materials processing in a centrifuge - Numerical modeling of macrogravity effectsThe fluid mechanics associated with crystal growth processes on a centrifuge is investigated. A simple scaling analysis is used to examine the relative magnitudes of the forces acting on the system and good agreement is obtained with previous studies. A two-dimensional model of crystal growth on a centrifuge is proposed and calculations are undertaken to help in understanding the fundamental transport processes within the crystal growth cell. Results from three-dimensional calculations of actual centrifuge-based crystal growth systems are presented both for the thermodynamically stable and unstable configurations. The calculations show the existence of flow bifurcations in certain configurations but not in all instances. The numerical simulations also show that the centrifugal force is the dominant stabilizing force on fluid convection in the stable configuration. The stabilizing influence of the Coriolis force is found to be only secondary in nature. No significant impact of gravity gradient is found in the calculations. Simulations of unstable configurations show that the Coriolis force has a stabilizing influence on fluid motion by delaying the onset of unsteady convection. Detailed flow and thermal field characteristics are presented for all the different cases that are simulated.
Document ID
19920043690
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Ramachandran, N. (Universities Space Research Association Huntsville, AL, United States)
Downey, J. P. (NASA Marshall Space Flight Center Huntsville, AL, United States)
Jones, J. C. (Wyle Laboratories Huntsville, AL, United States)
Curreri, P. A. (NASA Marshall Space Flight Center Huntsville, AL, United States)