Title :
Thermal modelling and optimization-based control of a batch diffusion furnace
Author :
Utz, Tilman ; Graichen, Knut
Author_Institution :
Inst. of Meas., Ulm Univ., Ulm, Germany
Abstract :
A mathematical model based on physical principles is presented for the thermal behavior of a batch diffusion furnace and its load. This model is designed to both remain graspable for optimization-based control design and preserve the essential (nonlinear) effects. Particular attention is paid to radiation, which constitutes the principal mode of heat transfer, is the dominating nonlinearity and significantly adds to the model complexity. Using finite volume semi-discretization with the net radiation method and semi-analytically determined radiation view factors yields a modular, easily adaptable mathematical model. An example heat-up problem is solved in a simulation environment using dynamic optimization.
Keywords :
dynamic programming; finite volume methods; furnaces; heat radiation; optimal control; thermal diffusion; batch diffusion furnace; dynamic optimization; finite volume semidiscretization; heat transfer; heat-up problem; mathematical model; model complexity; net radiation method; optimization-based control design; semianalytically determined radiation; thermal behavior; thermal modelling; Adaptation models; Furnaces; Heating; Load modeling; Mathematical model; Optimization;
Conference_Titel :
Control Applications (CCA), 2014 IEEE Conference on
Conference_Location :
Juan Les Antibes
DOI :
10.1109/CCA.2014.6981391
