9,054 research outputs found
Respiratory protective device design using control system techniques
The feasibility of a control system analysis approach to provide a design base for respiratory protective devices is considered. A system design approach requires that all functions and components of the system be mathematically identified in a model of the RPD. The mathematical notations describe the operation of the components as closely as possible. The individual component mathematical descriptions are then combined to describe the complete RPD. Finally, analysis of the mathematical notation by control system theory is used to derive compensating component values that force the system to operate in a stable and predictable manner
Operational experience and design recommendations for teleoperated flight hardware
Teleoperation (remote manipulation) will someday supplement/minimize astronaut extravehicular activity in space to perform such tasks as satellite servicing and repair, and space station construction and servicing. This technology is being investigated by NASA with teleoperation of two space-related tasks having been demonstrated at the Oak Ridge National Lab. The teleoperator experiments are discussed and the results of these experiments are summarized. The related equipment design recommendations are also presented. In addition, a general discussion of equipment design for teleoperation is also presented
Fluctuations and Pinch-Offs Observed in Viscous Fingering
Our experiments on viscous (Saffman-Taylor) fingering in Hele-Shaw channels
reveal several phenomena that were not observed in previous experiments. At low
flow rates, growing fingers undergo width fluctuations that intermittently
narrow the finger as they evolve. The magnitude of these fluctuations is
proportional to Ca^{-0.64}, where Ca is the capillary number, which is
proportional to the finger velocity. This relation holds for all aspect ratios
studied up to the onset of tip instabilities. At higher flow rates, finger
pinch-off and reconnection events are observed. These events appear to be
caused by an interaction between the actively growing finger and suppressed
fingers at the back of the channel. Both the fluctuation and pinch-off
phenomena are robust but not explained by current theory.Comment: 6 pages, 3 figures; to appear in Proceedings of the Seventh
Experimental Chaos Conferenc
Fluctuations and Pinch-Offs Observed in Viscous Fingering
Our experiments on viscous (Saffman-Taylor) fingering in Hele-Shaw channels
reveal several phenomena that were not observed in previous experiments. At low
flow rates, growing fingers undergo width fluctuations that intermittently
narrow the finger as they evolve. The magnitude of these fluctuations is
proportional to Ca^{-0.64}, where Ca is the capillary number, which is
proportional to the finger velocity. This relation holds for all aspect ratios
studied up to the onset of tip instabilities. At higher flow rates, finger
pinch-off and reconnection events are observed. These events appear to be
caused by an interaction between the actively growing finger and suppressed
fingers at the back of the channel. Both the fluctuation and pinch-off
phenomena are robust but not explained by current theory.Comment: 6 pages, 3 figures; to appear in Proceedings of the Seventh
Experimental Chaos Conferenc
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