Title :
Reachability of particle size distribution in emulsion batch polymerization under mid-course correction policies
Author :
Wang, Yang ; Immanuel, Charles D. ; Doyle, Francis J., III
Author_Institution :
California Univ., Santa Barbara, CA, USA
Abstract :
Rigorous reachability analysis is largely an open problem for nonlinear distributed systems. A programming-based reachability analysis is proposed to address nominal and perturbed systems, with the final distributed variables characterized as multi-Gaussian distributions. An application study is detailed for the feedback control of particle size distribution in emulsion polymerization, where the particulate system is described by population balance models. The approach has been applied to a semibatch styrene emulsion polymerization process. The re-mapping of the reachable region in the case of mid-course correction shows the best performance achievable through in-batch control action.
Keywords :
Gaussian distribution; distributed control; emulsions; feedback; nonlinear systems; particle size; polymerisation; process control; reachability analysis; singularly perturbed systems; emulsion batch polymerization; feedback control; mid course correction policy; multiple Gaussian distributions; nominal systems; nonlinear distributed systems; particle size distribution; perturbed systems; population balance models; rigorous reachability analysis; semibatch styrene emulsion polymerization process; variables characterization; Control system synthesis; Feedback control; Inductors; Industrial plants; Nonlinear systems; Performance analysis; Polymer films; Production; Reachability analysis; Rheology;
Conference_Titel :
American Control Conference, 2003. Proceedings of the 2003
Print_ISBN :
0-7803-7896-2
DOI :
10.1109/ACC.2003.1243450
