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Water-cooled end-point boundary temperature control of hot strip via dynamic programming

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2 Author(s)
Samaras, N.S. ; Danieli Autom., Pittsburgh, PA, USA ; Simaan, M.A.

In this paper, an end-point boundary temperature control approach for runout table cooling used in hot strip mills is presented. The system relies on a linearized model for describing heat radiated to the environment and heat transferred to cooling water. At first, a conventional feedforward control design to control the temperature at the end-point boundary, the only measurable controlled parameter, is presented. Subsequently, a modified control scheme which uses dynamic programming to minimize the temperature error at the end-point boundary is discussed in detail. System performance analysis via simulation is presented for both control schemes. Simulation results show that temperature error minimization by dynamic programming improves system performance

Published in:

Industry Applications, IEEE Transactions on  (Volume:34 ,  Issue: 6 )

Date of Publication:

Nov/Dec 1998

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