Title :
An intelligent controller for aluminum smelter potlines
Author :
Malaviya, Anoop K. ; Bundell, Gary A.
Author_Institution :
Ramsys Technol., Canning Vale, WA, USA
Abstract :
The control parameters for the Hall-Heroult electrolytic process to industrially produce aluminum metals are cryolite ratio, current efficiency, and the heat balance which are seen to be dependent on the bath resistance. In this paper, we present an intelligent controller based on the bath resistance process model, using the multilevel intelligent control (MLIAC) architecture. The design is targeted to improve real-time performance of the intelligent control, i.e., through use of a simple model, a priori learning, adaptation based on asynchronous parametric estimation, and an inference mechanism based on structured query language constructs, in a structured data environment. The controllers are modular, distributed, hierarchical, and well coordinated. The simulation studies show that it is possible to achieve higher plant productivity and net energy savings with such a controller
Keywords :
SQL; aluminium; control system synthesis; distributed control; intelligent control; melting; metallurgical industries; parameter estimation; Hall-Heroult electrolytic process; a priori learning; aluminum metals production; aluminum smelter potlines; asynchronous parametric estimation; bath resistance process model; control parameters; cryolite ratio; current efficiency; distributed controllers; heat balance; hierarchical controllers; inference mechanism; intelligent controller; knowledge based systems; modular controllers; multilevel intelligent control; net energy savings; real-time performance improvement; simulation; structured data environment; structured query language constructs; Aluminum; Database languages; Distributed control; Industrial control; Inference mechanisms; Intelligent control; Metals industry; Resistance heating; Smelting; Temperature control;
Journal_Title :
Industry Applications, IEEE Transactions on
