INVESTIGADORES
AGUIRRE Pio Antonio
artículos
Título:
Including disjunctions in real-time optimization
Autor/es:
FERNAN SERRALUNGA; AGUIRRE PIO; MIGUEL C MUSSATI
Revista:
INDUSTRIAL & ENGINEERING CHEMICAL RESEARCH
Editorial:
AMER CHEMICAL SOC
Referencias:
Lugar: Washington; Año: 2014 vol. 53 p. 17200 - 17213
ISSN:
0888-5885
Resumen:
Real-time optimization (RTO) is widely used in industry to improve the steady-state performance of a process
using the available measurements, reacting to changing prices and demands scenarios and respecting operating, contractual, and
environmental constraints. Traditionally, RTO has used nonlinear continuous formulations to model the process. Mixed-integer
formulations have not been used in RTO, because of the need of a fast solution (on the order of seconds or a few minutes), and
because many discrete decisions, such as startups or shutdowns, are taken with less frequency in a scheduling layer. This work
proposes the use of disjunctions in RTO models, listing a series of examples of discrete decisions (different to startups or
shutdowns) that can be addressed by RTO. Two model adaptation approaches (the two-step approach and the modifier
adaptation strategy) are revised and modified to make them suitable for RTO with discrete decisions. Some common techniques
used in RTO (such as filtering the optimal inputs) are also analyzed and adapted for a formulation with disjunctions. The
performance of RTO with disjunctions is shown by a case study in which a generic process is optimized. The results show that
the performance of a process can be improved by RTO with discrete decisions. The system converges to the vicinity of the real
plant optimum when constraints gradients are corrected, even under structural and parametric mismatch