Effects of drying conditions on physicochemical and antioxidant properties of banana (Musa cavendish) peels

A significant amount of banana peels is generated as waste annually and shows great potential as a lead material for further utilization in the nutraceutical industry. However, potentiality of banana peel utilization largely depends on the favorable drying condition of the material before it can be...

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Bibliographic Details
Published inDrying technology Vol. 35; no. 9; pp. 1141 - 1151
Main Authors Vu, Hang T., Scarlett, Christopher J., Vuong, Quan V.
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 04.07.2017
Taylor & Francis Ltd
Subjects
Antioxidants
banana
Bananas
Bioactive compounds
Biocompatibility
Biomedical materials
Dehumidification
Dry matter
Drying
Drying ovens
Equivalence
Functional foods & nutraceuticals
Gallic acid
Humidity
Irradiation
peel
phenolic
Phenols
Physical properties
Stellar mass
Sulfonic acid
Sun
Surgical implants
Utilization
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Summary:A significant amount of banana peels is generated as waste annually and shows great potential as a lead material for further utilization in the nutraceutical industry. However, potentiality of banana peel utilization largely depends on the favorable drying condition of the material before it can be used for further processing. Therefore, it is necessary to identify the suitable drying conditions for banana peel. This study investigated the effect of six different drying methods on the quality of banana peels. The results showed that different drying conditions significantly affected the physical, chemical, and antioxidant properties of dried peels. Microwave irradiation at the power level of 960 W for 6 min was the most suitable condition, as these dried peels had good physical properties, minimum loss of bioactive compounds, and antioxidant properties. This was followed by freeze-drying, vacuum oven at 60°C, hot air oven at 120°C, dehumidified air at 60°C, and sun drying. The peels dried by microwave possessed a total phenolic content of 25.26 mg of gallic acid equivalents/g of dry matter (DM) and potent antioxidant capacity [(1,1-diphenyl-2-picrylhydrazyl) of 37.70; 2,2′-azino-bis-3-ethylbenzothiazoline-6-sulfonic acid of 46.35; ferric reducing antioxidant power of 45.94; and cupric ion reducing antioxidant capacity of 64.55 mg of trolox equivalents/g of DM]. Therefore, the study recommends the use of microwave irradiation under the studied condition (power level of 960 W for 6 min) for further processing and utilization.
ISSN:0737-3937
1532-2300
DOI:10.1080/07373937.2016.1233884