Safety Assurance And Quality Enhancement Of Juices By The Application Of Traditional Thermal Treatments And Nonthermal Processes
Files
No Access Until
Permanent Link(s)
Collections
Other Titles
Author(s)
Abstract
Outbreaks associated with the consumption of contaminated juices have stressed the relevance of introducing a microbial killing step during processing of these products. Nonetheless, some unanswered questions regarding the application of pasteurization and nonthermal technologies, such as UV light, to ensure the safety of beverages with a pH below 4.6 have been identified. Hence, this research project aimed to address some of these existing gaps of information and therefore assist the food industry, regulatory agencies and process authorities with the establishment of critical limits for the safe thermal or UV processing of low-pH drinks. The thermal tolerance of E. coli O157:H7 in apple-carrot juice blends, using different acids and at variable pH values was determined. Then, the effect of different methodologies of acid adaptation and acid shock on the thermal tolerance and survival of three Shiga toxin-producing E. coli strains was assessed. Furthermore, the impact of the concentration of insoluble solids and the darkening of juice after apple pressing, on the efficiency of UV treatments were studied and, the influence of the addition of selected additives and preservatives on the efficiency of the UV treatment of apple juice and the impact of UV radiation over those compounds was additionally evaluated. This dissertation will provide the juice and beverage industries with relevant information to meet some of the science-based rules stated in current and new regulations, including the Food Safety Modernization Act.
Journal / Series
Volume & Issue
Description
Sponsorship
Date Issued
Publisher
Keywords
Location
Effective Date
Expiration Date
Sector
Employer
Union
Union Local
NAICS
Number of Workers
Committee Chair
Committee Co-Chair
Committee Member
Worobo, Randy W.