Multivariable temperature measurement and control system of large-scaled vertical quench furnace based on temperature field  被引量：7

作　　者：XuanZHOU ShouyiYU JiangYU LiequanLIANG 

机构地区：[1]CollegeofInformationScienceandEngineering,CentralSouthUniversity,ChangshaHunan410083,China [2]TexasIntrumentCompany,DalasTX75125,U.S.A

出　　处：《控制理论与应用（英文版）》2004年第4期401-405,共5页

基　　金：It was supported by the National Natural Science Foundation of China (No. 59835170).

摘　　要：A temperature control system of 31m vertical forced air-circulation quench furnace is proposed, which is a kind of equipment critical for thermal treatment of aluminum alloy components that are widely used in aerospace industry. For the effective operation of the furnace, it is essential to analyze the radial temperature distribution of the furnace. A set of thermodynamic balance equations modeling is established firsdy. By utilizing the numerical analysis result to modify the temperature measurements, the control accuracy and precision of the temperature are truly guaranteed. Furthermore, the multivariable decoupling self-learning PID control algorithm based on the characteristics of strong coupling between the multi-zones in the large-scaled furnace is implemented to ensure the true homogeneity of the axial temperature distribution. Finally, the redundant structure composed of industrial control computers and touch panels leads to great improvement of system reliability.A temperature control system of 31m vertical forced air-circulation quench furnace is proposed, which is a kind of equipment critical for thermal treatment of aluminum alloy components that are widely used in aerospace industry. For the effective operation of the furnace, it is essential to analyze the radial temperature distribution of the furnace. A set of thermodynamic balance equations modeling is established firsdy. By utilizing the numerical analysis result to modify the temperature measurements, the control accuracy and precision of the temperature are truly guaranteed. Furthermore, the multivariable decoupling self-learning PID control algorithm based on the characteristics of strong coupling between the multi-zones in the large-scaled furnace is implemented to ensure the true homogeneity of the axial temperature distribution. Finally, the redundant structure composed of industrial control computers and touch panels leads to great improvement of system reliability.

关 键 词：Axial temperature distribution homogeneity Radial temperature distribution Decoupling self-learning PID control Redundant structure 

分 类 号：TP273[自动化与计算机技术—检测技术与自动化装置]