A Novel Network-based Continuous-Time Representation for Process Scheduling: Part I. Mathematical Formulation

GIMÉNEZ, DIEGO MARCELO; HENNING, GABRIELA; MARAVELIAS, CHRISTOS

COMPUTERS AND CHEMICAL ENGINEERING

Elsevier Science Ltd.

Año: 2009 vol. 33 p. 1511 - 1528

0098-1354

A novel network-based framework for the short-term scheduling of multipurpose batch processes is presented. The novelty of the proposed approach lies in five key concepts. First, it is based on a new continuous-time representation that does not require tasks to start (end) exactly at a time point; thus reducing the number of time points needed to represent a solution. Second, processing units are modeled as being in different activity states to allow storage of input/output materials. Third, time variables for "idle" and "storage" periods of a unit are introduced to enable the matching between tasks and time points without big-M constraints. Fourth, material transfer variables are introduced to explicitly account for unit connectivity. Fifth, inventory variables for storage in processing units are incorporated to model non-simultaneous and partial material transfers. The proposed representation leads to MILP formulations which address limitations of existing scheduling methods.