ժҪ To improve billet quality and the trackability and stability of secondary cooling water during continuous casting, the superheat is introduced into the water distribution for secondary cooling to design the relevant control system, based on the water distribution model, superheat, surface temperature and fuzzy self-adaptive PID. A spray cooling system is thus set up for simulation test in laboratory to test the step signal from the conventional, integral separated and fuzzy self-adaptive PID controllers and the simulation casting. The simulation test results show that the fuzzy self-adaptive PID controller��s performance is better than the other two controllers, which provides a foundation for further study and application.
Abstract��To improve billet quality and the trackability and stability of secondary cooling water during continuous casting, the superheat is introduced into the water distribution for secondary cooling to design the relevant control system, based on the water distribution model, superheat, surface temperature and fuzzy self-adaptive PID. A spray cooling system is thus set up for simulation test in laboratory to test the step signal from the conventional, integral separated and fuzzy self-adaptive PID controllers and the simulation casting. The simulation test results show that the fuzzy self-adaptive PID controller��s performance is better than the other two controllers, which provides a foundation for further study and application.
LIU Wen��hong;XIE Zhi. Design and Simulation Test of Advanced Secondary Cooling Control System of Continuous Casting Based on Fuzzy Self��Adaptive PID[J]. �й������ڿ���, 2011, 18(1): 26-26.
LIU Wen��hong;XIE Zhi. Design and Simulation Test of Advanced Secondary Cooling Control System of Continuous Casting Based on Fuzzy Self��Adaptive PID. Chinese Journal of Iron and Steel, 2011, 18(1): 26-26.
2011, Vol. 18 
