Um modelo híbrido (CLP-MILP) para scheduling de operaçõ es em polidutos

Abstract

This work is motivated by the need of optimization in the pipeline-oil distribution scenario. The considered problem involves the short-term scheduling of activities in a specific pipeline. The pipeline is 93.5 km in length, and it connects refinery and harbor tankfarms, conveying different types of commodities (gasoline, diesel, kerosene, etc). An optimization model was developed to determine the pipeline scheduling with improved efficiency. Such model combines Constraint Logic Programming (CLP) and Mixed Integer Linear Programming (MILP) in an integrated CLP-MILP framework. The proposed model uses decomposition strategies, continuous time representation, and intervals that represent time constraints (time windows). Real cases were solved in a reduced computational time (order of seconds). The computational results have demonstrated that the model is able to define new operational points to the pipeline, providing significant cost saving. Indeed the CLP-MILP model is an efficient tool to aid the operational decision-making within this real-world pipeline scenario.