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DEVELOPMENT AND QUALITY EVALUATION OF VACUUM-IMPREGNATED COCONUT CHIPS /

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dc.contributor.author P, ANUJ SONAL
dc.contributor.author K P, SUDHEER (Guide)
dc.date.accessioned 2024-04-09T08:49:45Z
dc.date.available 2024-04-09T08:49:45Z
dc.date.issued 2024
dc.identifier.uri http://14.139.181.140:8080//jspui/handle/123456789/1907
dc.description.abstract A protocol for vacuum impregnation of coconut chips was optimized across various stages, including the optimization of impregnation and drying parameters, along with a comprehensive storage study. The vacuum impregnation (VI) process for coconut slices underwent optimization using a Box-Behnken design, examining the impact of vacuum pressure (100-300 mbar), vacuum time (10-20 min), vacuum relaxation time (5-15 min), and solution concentration (50-70OBrix) on various parameters. The results indicated second-order kinetics for mass transfer, reaching equilibrium after a vacuum time of 20 minutes. Optimized conditions were determined as a vacuum level of 229.40 mbar, vacuum time of 12.205 minutes, vacuum relaxation time of 11.975 minutes, and a solution concentration of 62.609OBrix. Key parameters like water loss (25.033%), solute gain (5.643%), weight reduction (19.389%), water activity (0.720), pH (5.660), color change (3.161), total soluble solids (51.120°Brix), ash content (0.825%), and total sugar (9.255 mg/100g) were observed under these optimum VI conditions. The subsequent drying process involved a comparison of various dryers (Infra-red, vacuum, heat pump, and convective) and temperatures (60-800C), with the optimized parameter being a vacuum dryer at 60OC, exhibiting the least drying time of 2.5 hrs. The resulting vacuum-dried coconut chips demonstrated high quality, with desirable characteristics such as moisture content (0.474%), water activity (0.358), color change (8.48), texture (1.62N), fat content (53.2), protein (4.81), total sugar (38.5%), fiber (27%), and ash content (1.56%). The VI-processed coconut chips, developed under optimized conditions, were packed in laminated aluminum pouches filled with nitrogen and subjected to storage studies. Unlike commercially available coconut chips that developed a rancid taste after 135 days, the optimized coconut chips retained acceptable quality attributes for up to 195 days. In summary, the developed system and process not only reduced processing time but also proved effective in maintaining quality and extending the shelf life of vacuum-impregnated coconut chips. en_US
dc.relation.ispartofseries ;T 607
dc.title DEVELOPMENT AND QUALITY EVALUATION OF VACUUM-IMPREGNATED COCONUT CHIPS / en_US


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