Effect of Conventional and Ohmic Pasteurization on Some Bioactive Components of Aloe vera Gel Juice

Effect of Conventional and Ohmic Pasteurization on Some Bioactive Components of Aloe vera Gel Juice

In this research the effect of conventional and ohmic pasteurization and storage time at different temperatures on some bioactive components of Aloe vera gel juice was investigated. Aloe vera gel juice was pasteurized conventionally and ohmically at 90 ºC for 1 min. The effect of pasteurization on v...

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Bibliographic Details
Published in:Iranian journal of chemistry & chemical engineering Vol. 34; no. 3; pp. 99 - 108
Main Authors: Hamed Saberian, Zohreh Hamidi Esfahani, Soleiman Abbasi
Format: Journal Article
Language:English
Published: Iranian Institute of Research and Development in Chemical Industries (IRDCI)-ACECR 01-09-2015
Subjects:
aloe barbadensis miller
conventional and ohmic pasteurization
functional properties
shelf life
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Summary:In this research the effect of conventional and ohmic pasteurization and storage time at different temperatures on some bioactive components of Aloe vera gel juice was investigated. Aloe vera gel juice was pasteurized conventionally and ohmically at 90 ºC for 1 min. The effect of pasteurization on vitamin C, total phenolic content  and juice color was evaluated. The samples pasteurized conventionally, stored up to 30 days at 4 and 25 ºC. The effect of storage time on the stated components and also on glucomannan of the juice was evaluated. The results showed that pasteurization reduced vitamin C content and decreasing of vitamin C during ohmic heating was more than conventional heating. Total phenolic content increased during ohmic pasteurization more significant than conventional pasteurization. Browning index of samples after pasteurization increased but there were not any differences between browning index of samples pasteurized conventionally and ohmically. During storage at 4 and 25ºC, total phenolic content remained stable, but vitamin C contents reduced from 84.47 to 54.96 at 4ºC and 46.82 at 25ºC mg vitamin C/100 g d.m and glucomannan contents reduced from 2.11 to 1.77 at 4ºC and 1.71 g/L at 25ºC.. Browning index increased significantly at both storage temperatures, which was more intensive at 25 than 4 ºC.
ISSN:1021-9986
1021-9986