Title :
Modeling and simulation of run-out table cooling control using feedforward-feedback and element tracking system
Author_Institution :
Dept. of Autom. Technol, ARMCO Res. & Technol., Middletown, OH, USA
Abstract :
This article proposes a simple run-out table cooling control algorithm for an existing hot strip mill. The control system was designed to minimize the retrofit cost and to utilize existing equipment. Special consideration includes response times of top and bottom cooling headers, top header opening sequence, prediction of finisher speed and strip element tracking. A six-dimensional lookup table was generated for feedforward control using an offline mathematical model which was identified and verified by rolling data. The feedforward loop was designed to obtain the target coiling temperature, while the feedback loop was applied to attenuate cooling disturbances due to real-time changes of rolling parameters and prediction errors of the mathematical model
Keywords :
control system analysis; control system synthesis; cooling; feedback; feedforward; process control; rolling mills; temperature control; tracking; winding (process); control algorithm; control design; control simulation; cooling disturbances attenuation; feedforward-feedback system; finisher speed prediction; hot strip mill; offline mathematical model; response time; run-out table cooling control; six-dimensional lookup table; strip element tracking system; target coiling temperature; top header opening sequence; Control systems; Cooling; Costs; Delay; Mathematical model; Milling machines; Strips; Table lookup; Target tracking; Temperature control;
Journal_Title :
Industry Applications, IEEE Transactions on
