Title :
Zero-voltage-fired transformer-coupled thyristor power control applied for temperature control of the tin bath in the float glass process
Author :
Heath, Lon ; Blackmond, Ronald C.
Author_Institution :
AFG Ind., Kingsport, TN, USA
Abstract :
A novel thyristor-based power circuit is described that substitutes zero-voltage-fired time-proportioning control and thus allows fewer transformer taps while causing no degradation of circuit power factor. Harmonic distortion usually associated with phase angle control in this application is eliminated. A system description outlining power requirements, a comparison of power factor costs, and system design philosophy are provided along with some operational history and an explanation of the thyristor control
Keywords :
glass industry; power control; power factor; temperature control; thyristor applications; float glass process; power control; power factor costs; temperature control; thyristor-based power circuit; time-proportioning control; tin bath; transformer-coupled thyristor; zero-voltage-fired; Control systems; Glass; Harmonic distortion; Power control; Reactive power; Resistance heating; Silicon carbide; Temperature control; Thyristors; Tin;
Journal_Title :
Industry Applications, IEEE Transactions on
