ISHS Acta Horticulturae 600: VIII International Controlled Atmosphere Research Conference
PERFORATION-MEDIATED MODIFIED ATMOSPHERE PACKAGING: INFLUENCE OF PACKAGE GEOMETRY AND PERFORATION LOCATION ON OXYGEN AND CARBON DIOXIDE TRANSFER |
| Authors: | S.C. Fonseca, F.A.R. Oliveira, J.K. Brecht, K.V. Chau |
| Keywords: | Transport, bulk package, fresh produce, air circulation, multiple perforations. |
| Abstract:
The importance of maintaining high quality of intact and fresh-cut fruits and vegetables during the distribution chain has led to the use of modified atmosphere packages (MAP), and alternative materials and packaging systems are being investigated for this purpose. Perforation-mediated MAP relies on the use of perforations (tubes) of different dimensions to control package O2 and CO2 exchange in order to create the desired atmosphere for preservation of intact and fresh-cut fruits and vegetables. This is a promising technique for bulk packages that require rigid containers. The design of a perforation-mediated MAP for preservation of fresh fruits and vegetables requires knowledge of the O2 and CO2 exchange rates through perforations. The air circulation surrounding the package and the draft induced by multiple perforations are important factors that should be studied. In this work, a set of experiments was performed to analyze the influence of tube location and number, as well as package geometry, on the O2 and CO2 mass transfer coefficients and the  ratio.
Top and side tube locations, different locations on the same
side of the package, and different package geometries were found to influence
the mass transfer coefficients.
Two perforations tripled O2 and CO2
exchange, showing the importance of draft effects, but the relative position of
the tubes did not show a significant effect on the process.
The ratio was not significantly different for all the conditions tested.
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