Thermal Processing Determination Time for Fermented and Acidified Indigenes Iranian Vegetables
author
Abstract:
Vegetables may be preserved by fermentation, direct acidification, or a combination of these, along with pasteurization, to yield products with an extended shelf life and enhanced safety. Effect of lowering the pH, either by adding acid or lactic fermentation, on thermal process requirements for canned vegetables was investigated. Malic acid was preferred for acidification of canned vegetables. Addition of acid to covering brine was preferable to the blanching in acid solution, as the acidification was uniform, and it reduced the extent of discolouration. Acidification by lactic fermentation, using 2% hot brine to cover the prepared vegetable, reduced the pH to 3.8 in 3 days. Fermentation is initiated by the species of Leuconostoc and Lactobacillus followed by Pediococcus and Streptococcus, Process time, based on a sterilisation value of = 3.5 min, was adequate to render the canned acidified vegetables (pH ≤ 4.0) microbiologically safe. The process time required for 77.8 x 119.1 mm and 103 .2 x 119.1 mm cans, having initial temperature of 65°C, was 15 min or less in boiling water. Colour of the lactic fermented canned products was superior to canned vegetables acidified with malic acid. Both had texture similar to that of the freshly cooked vegetables. Products acidified by fermentation had minimal sour taste.
similar resources
Thermal processing determination time for fermented and acidified indigenes Iranian vegetables
Vegetables may be preserved by fermentation, direct acidification, or a combination of these, along with pasteurization, to yield products with an extended shelf life and enhanced safety. Effect of lowering the pH, either by adding acid or lactic fermentation, on thermal process requirements for canned vegetables was investigated. Malic acid was preferred for acidification of canned vegetables...
full textUse of Linear Models for Thermal Processing of Acidified Foods
Acidified vegetable products with a ph above 3.3 must be heat processed to assure the destruction of Escherichia coli O157:h7, Salmonella enterica, Listeria monocytogenes, and other pathogenic bacteria that might be present in the product. Recently, the Food and Drug Administration has required that linear models for heat process data be used with electronic process filing forms. Existing recom...
full textFermented Vegetables Historical PersPective
Historical PersPective The wide variety of fermented foods can be classified by the products of the fermentation, such as alcohol (beer, wine); organic acids, including lactic acid and acetic acid (vegetables, dairy); carbon dioxide (bread); and amino acids or peptides from protein (fish fermentations and others) (35, 56, 96, 97). Food fermentation is one of the earliest technologies developed ...
full textDry and Semi-Dry Fermented and Direct Acidified Sausage Validation
In 1994, an outbreak of E. coli O157:H7 infection was linked to dry, fermented, pork and beef salami. In response to this first implication of a dry fermented sausage product, the United States Department of Agriculture/Food Safety Inspection Service developed guidelines requiring sausage manufacturers to validate that their processes achieve a five-log reduction of E. coli O157:H7. Various val...
full textDry and Semi-Dry Fermented and Direct Acidified Sausage Validation
range for these products is 4.7-4.9, whereas, pepperoni has a slightly lower pH range of 4.5-4.8 and a lower MPR of 1.6:1 as required by FSIS (FSIS, 1986). The moisture content for these products ranges from 25-39%. All of these products, because of their moisture-toprotein ratios, are considered shelf stable (FSIS, 1986; Ricke and Keeton, 1997). Semidry sausages such as summer sausage, cervela...
full textMy Resources
Journal title
volume 2 issue 1
pages 1- 8
publication date 2017-06-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023