Model-Based Decision Support Tools at Jugos S.A. Concentrated Fruit Juice Plant
Authors: Aníbal M. Blanco, 
M. Susana Moreno, Carolina Taraborelli, Flavio D’Angelo, Facundo Iturmendi, J. Alberto BandoniAuthors Info & Claims
Pages 255 - 268
Abstract
We describe the development of a decision-support tool to assist in the operations of a large concentrated apple and pear juice plant. The tool’s objective is to generate detailed schedules of clarified juice batches to be produced in the following weeks considering incoming fruit forecasts, commercial commitments, and infrastructural constraints. The tool is based on two interactive modules, PLANNER and SIMOPT, with different and complementary purposes. Each module is based on mixed-integer models with specific inputs, outputs, and user interfaces. PLANNER consists of three submodules: (i) planning assigns a batch of concentrated juice to be produced on a specific day, taking into account cleaning activities, rest days, raw material availability, and production and storage constraints; (ii) preprocessing organizes juice orders in batches; and (iii) pooling provides a detailed monitoring of semielaborated juice in storage pools in terms of inventories and sugar and acid content. Finally, SIMOPT provides a detailed optimal operative condition of the plant together with a thorough calculation of specific costs. This information is used by PLANNER to evaluate the corresponding economic objective functions. Besides providing optimal target conditions to the plant and feasible production schedules, the developed tools generate production guidelines in the long term and allow performing scenario studies.
References
[1]
Blanco AM, Masini G, Petracci N, Bandoni JA (2005) Operations management of a packaging plant in the fruit industry. J. Food Engrg. 70(3):299–307.
[2]
Catalá LP, Durand AG, Blanco AM, Bandoni JA (2013a) Mathematical model for strategic planning optimization in the pome fruit industry. Agricultural Systems 115:63–71.
[3]
Catalá LP, Moreno MS, Blanco AM, Bandoni JA (2016) A bi-objective optimization model for tactical planning in the pome fruit industry supply chain. Comput. Electronic Agriculture 130:128–141.
[4]
Catalá LP, Moreno MS, Durand AG, Blanco AM, Bandoni JA (2013b) Optimal production planning of concentrated apple and pear juice plants. Iberoamerican J. Indust. Engrg. 5(10):172–187.
[5]
Iturmendi F, Estrada V, Ochoa MP, Hoch PM, Diaz MS (2012) Biological wastewater treatment: Dynamic global sensitivity analysis and parameter estimation in a system of waste stabilization ponds. Computer-Aided Chemical Engrg. 30:212–216.
[6]
Lozano JE (2006) Fruit Manufacturing (Springer, New York).
[7]
Masini GL, Blanco AM, Petracci N, Bandoni JA (2008) Supply chain tactical optimization in the fruit industry. Papageorgiou L, Georgiadis M, eds. Supply Chain Optimization (Wiley-VCH, Weinheim, Germany), 121–166.
[8]
Masini GL, Blanco AM, Petracci NC, Bandoni JA (2009) Optimal operational planning in the fruit industry supply chain. Erdogdu F, ed. Optimization in Food Engineering (Taylor & Francis, Oxfordshire, UK), 703–745.
[9]
Marchetti J (1994) Optimum cycle time in semi batch ultrafiltration systems. Chemical Engrg. Comm. 129(1):217–225.
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Published In
July-August 2020
58 pages
Copyright © 2020, INFORMS.
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INFORMS
Linthicum, MD, United States
Publication History
Published: 01 July 2020
Accepted: 20 May 2020
Received: 29 November 2019
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