Title :
Experimental and Simulated Straightening of Metal Halide Arcs Using Power Modulation
Author :
Olsen, Jo ; Dreeben, Thomas D.
Author_Institution :
OSRAM Sylvania Central Res., Beverly, MA, USA
Abstract :
Years of research in the fundamentals of acoustically generated flows in high-intensity-discharge arc tubes for enhancement have recently produced record-breaking performance in converting wall-plug power to useful white light. In this paper, simulated results show how power modulation produces straightened arcs in horizontally running lamps. A fully unsteady compressible 2-D flow model is used to reproduce observed instantaneous pressure and temperature oscillations, and the results are time averaged and rendered to visualize the bulk gas flows. Sound-wave propagation and induced flows result from full coupling between the oscillating current, the energy balance, the ideal-gas law, and the conservation of mass and momentum on two separate timescales. Experimental verifications of the instantaneous and time-averaged effects are included.
Keywords :
acoustic wave propagation; arc lamps; compressible flow; flow visualisation; metal vapour lamps; bulk gas flow visualisation; high-intensity-discharge arc tube; horizontally running lamp; ideal-gas law; mass conservation; metal halide arcs; momentum conservation; power modulation; sound-wave propagation; temperature oscillation; unsteady compressible 2D flow model; wall-plug power; white light; Acoustics; Electron tubes; Equations; Frequency modulation; High intensity discharge lamps; Mathematical model; Acoustic; arc stability; electronic ballast; high-pressure discharge lamp; metal halide; resonance;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2010.2090935
