4.7 Article

Optimal operation of thermal processing of canned tuna under product variability

Journal

JOURNAL OF FOOD ENGINEERING
Volume 304, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.jfoodeng.2021.110594

Keywords

Process modeling; Quality and safety; Product uniformity; Multi-objective optimization; Variable-temperature profiles

Funding

  1. EU Horizon 2020 research and innovation programme [723575]
  2. Spanish MICINN
  3. FEDER funds [PGC 2018-099312-B-C31, PGC 2018-099312-B-C33]

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Thermal processing of canned products is affected by variability in the thermal processing unit, quantity of food, compaction, and packing liquid, which requires consideration of conflicting objectives for multi-objective optimization. A suitable formulation is presented to efficiently address this issue, utilizing experimental data characterizing product variability and avoiding computationally-expensive stochastic approaches. Customizable retort temperature profiles are considered as a beneficial alternative to standard practices.
Thermal processing of canned products is subject to variability among the different items in a batch, which results in differences in terms of food quality and safety. Such variability is mainly caused by heterogeneity in the thermal processing unit as well as differences in the quantity of food, its compaction, and the quantity of packing liquid from item to item. Besides, for a proper design of the process operation strategies, different conflicting objectives, such as maximization of product quality and uniformity or minimization of processing time and energy consumption, must be considered. In this paper, we present a suitable formulation to efficiently address the multi-objective optimization problem of thermal processing of canned food under the presence of product variability. Such variability has been characterized from experimental data provided by an industrial cannery. Our formulation exploits the monotonic and convex behavior of the quality/safety indicators and the product kinetics with respect to the uncertain thermal coefficients, avoiding thus the computationally-expensive stochastic approach via Monte-Carlo simulations. In particular, customizable retort temperature profiles are considered as a beneficial alternative to the standard constant retort temperature practice.

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