Title :
Control technology applied to glass level regulation
Author :
Black, Gordon S., Jr.
Author_Institution :
PPG Fiber Glass Res., Pittsburgh, PA, USA
Abstract :
Metal line regulation is one of the fundamental control problems in continuous glass melting and delivery to forming. This problem is generalized into a material transport system with a constant discharge flow rate, described using an open-loop unstable process model with dead time, time-varying parameters, load disturbances, and measurement noise. Regulation involves matching the raw-material charging rate of the melter to the forming molten glass delivery rate, so that a constant glass hydrostatic head is maintained in the process. An adaptive control strategy is described for this plant. It accommodates measurement uncertainty through filtering, time-varying plant parameters through online identification and explicit controller tuning, and dead time through a Smith-predictor-based scheme modified to accommodate delay variation and unstable open-loop process behavior
Keywords :
glass industry; Smith-predictor-based scheme; adaptive control; constant discharge flow rate; continuous glass melting; dead time; explicit controller tuning; glass level regulation; hydrostatic head; load disturbances; molten glass delivery rate; online identification; open-loop unstable process model; raw-material charging rate; time-varying parameters; Adaptive control; Delay effects; Filtering; Fluid flow measurement; Glass; Measurement uncertainty; Noise measurement; Open loop systems; Time measurement; Time varying systems;
Journal_Title :
Industry Applications, IEEE Transactions on
