A quantitative failure assessment of ice slurry cooling of fish at sea to meet regulatory guidelines – demonstrated with Southern Bluefin Tuna (Thunnus maccoyii)

The use of ice slurry to cool fish at sea is widespread. Regulations exist for cooling to a particular temperature in a given time. Here we synthesis a quantitative failure assessment of the impact of naturally occurring, chance fluctuations in slurry temperature and fish mass on cooling time. It is...

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Bibliographic Details
Published in:Journal of food engineering 2016-08, Vol.183, p.58-64
Main Author: Davey, Kenneth R.
Format: Article
Language:English
Subjects:
Assessments
Computer simulation
Cooling
Failure
Failure of ice slurry cooling
Fish
Fr 13 risk modelling
Government regulations
Marine
Mathematical models
Slurries
Thunnus maccoyii
Transient ice cooling of fish
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Summary:The use of ice slurry to cool fish at sea is widespread. Regulations exist for cooling to a particular temperature in a given time. Here we synthesis a quantitative failure assessment of the impact of naturally occurring, chance fluctuations in slurry temperature and fish mass on cooling time. It is demonstrated with Southern Bluefin Tuna (Thunnus maccoyii) (SBT), a premium farmed fish. The assessment is based on the transient cooling model of Davey (Davey, 2015, LWT 60 (1), 308–314) together with a cooling risk factor (p). Cooling is simulated using Monte Carlo (Latin Hypercube) sampling of parameters. Results revealed that 6.93% of freshly harvested SBT could fail to cool to a Regulatory 5 °C in ≤12 h, averaged over a long period. Quantitative evidence is used to show variance about the mean fish mass is the controlling parameter, and that cooling failures can be mitigated if the slurry temperature is maintained close to the theoretical minimum of 0 °C (not withstanding any acceptable use of brine slurries). Because all practical scenarios that can exist for ice slurry cooling at sea are computed, the new failure assessment is a significant advance over traditional approaches. It will be of immediate practical use. •We demonstrate an innovative failure assessment for cooling of fish in ice slurry.•Assessment is mathematically exact but generalised.•Can be applied to a range of fish species and slurry temperatures.•Controlling parameter is range of fish masses in each catch.•It will be of benefit to fishermen and boat owners who use ice to cool fish.
ISSN:0260-8774
1873-5770
DOI:10.1016/j.jfoodeng.2016.03.020