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Efficient multi-product multi-BOM batch scheduling for a petrochemical blending plant with a shared pipeline network

Author

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  • HILL, Alessandro
  • CORNELISSENS, Trijntje
  • SÖRENSEN, Kenneth

Abstract

We present an effective scheduling heuristic for realistic production planning in a petrochemical blending plant? The considered model takes into account orders spanning a multi-product portfolio with multiple bills of materials per product, that need to be scheduled on shared production facilities including a complex pipeline network. Capacity constraints, intermediate storage restrictions, due dates, and the dedication of resources to specific product families have to be respected. The primary objective of the heuristic is to minimize the total order tardiness. Secondary objectives include the minimization of pipeline cleaning operations, the minimization of lead times, and the balanced utilization of filling units. The developed algorithm is based on a dynamic prioritization-based greedy search that schedules the orders sequentially. The proposed method can schedule short to mid-term operations and evaluate different plant configurations or production policies for tactical planning. We demonstrate its performance on various real-world inspired scenarios for different scheduling strategies.

Suggested Citation

  • HILL, Alessandro & CORNELISSENS, Trijntje & SÖRENSEN, Kenneth, 2014. "Efficient multi-product multi-BOM batch scheduling for a petrochemical blending plant with a shared pipeline network," Working Papers 2014032, University of Antwerp, Faculty of Business and Economics.
    • Handle: RePEc:ant:wpaper:2014032
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    File URL: https://repository.uantwerpen.be/docman/irua/1c3072/8d5b8115.pdf
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    References listed on IDEAS

    as
    1. Kopanos, Georgios M. & Méndez, Carlos A. & Puigjaner, Luis, 2010. "MIP-based decomposition strategies for large-scale scheduling problems in multiproduct multistage batch plants: A benchmark scheduling problem of the pharmaceutical industry," European Journal of Operational Research, Elsevier, vol. 207(2), pages 644-655, December.
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    More about this item

    Keywords

    batch scheduling; chemical blending plant; heuristic;
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