Experiments on the stabilization of the no-motion state of a fluid layer heated from below and cooled from above

It is demonstrated experimentally that through the use of feedback control, it is possible to stabilize the nomotion (conductive) state of a fluid layer confined in a circular cylinder heated from below and cooled from above (the Rayleigh-Bénard problem), thereby postponing the transition from a no-motion state to cellular convection. The control system utilizes multiple sensors and actuators. The actuators consist of individually controlled heaters microfabricated on a silicon wafer which forms the bottom of the test cell. The sensors are diodes installed at the fluid's midheight. The sensors monitor the deviation of the fluid temperatures from preset, desired values and direct the actuators to act in such a way as to eliminate these deviations. Comments Reprinted from Journal of Fluid Mechanics, Volume 363, July 1997, pages 153-171. Publisher URL: http://journals.cambridge.org/ This journal article is available at ScholarlyCommons: http://repository.upenn.edu/meam_papers/114 J. Fluid Mech. (1998), Šol. 363, pp. 153–171. Printed in the United Kingdom # 1998 Cambridge University Press 153 Experiments on the stabilization of the no-motion state of a fluid layer heated from below and cooled