INVESTIGADORES
ANDRES Silvina Cecilia
artículos
Título:
Mathematical modeling of microbial growth in packaged refrigerated orange juice treated with chemical preservatives
Autor/es:
ANDRÉS S.C.; GIANNUZZI, L.; ZARITZKY N.E.
Revista:
JOURNAL OF FOOD SCIENCE
Editorial:
Ed. Institute of Food Technology (IFT)
Referencias:
Lugar: Chicago, IL, USA; Año: 2001 vol. 66 p. 724 - 728
ISSN:
0022-1147
Resumen:
Microbial flora of refrigerated orange juice was analyzed during storage at 10 8C and the effects of the
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
8C and the effects of the
following factors were discussed: 1) the previous washing process of the orange peel, 2) the different levels of the
added preservatives (citric acid, ascorbic acid, potassium sorbate, sodium benzoate), 3) the gaseous permeabilities
of the packaging film. Gompertz equation was applied to model molds and yeasts growth for the different treatments
and packaging conditions. The washing procedure with sodium hypochlorite extend 2 - 3 d the storage life of the
juice (time to reach microbial counts of 106 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
6 CFU/ml) in both packaging films. The use of organic acids and potassium
sorbate or sodium benzoate (1.66 - 6.94 mM) led to storage life values > 11 d in polyethylene and . 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
low gaseous permeability film, maintaining good sanitary conditions.
. 20 d in the
low gaseous permeability film, maintaining good sanitary conditions.
