Effect of Osmo-air drying on quality of dried onion
Subject Areas : Food Science and Technologyمنصوره Mozaffary 1 , جابر Solaimani 2 , نارملا Asefi 3 , پریسا Jafarian 4
1 - Department of Agricultural Engineering, Agricultural Research Center of East Azarbaijan,Tabriz, Iran
2 - Department of Agricultural Engineering, Agricultural Research Center of East Azarbaijan,Tabriz, Iran
3 - Department of Food Science andTechnology, Faculty of Agriculture, Tabriz Branch, Islamic Azad University, Tabriz,Iran.
4 - Department of Food Science and Technology, Faculty of Agriculture, Tabriz University, Tabriz, Iran.
Keywords: : Osmotic dehydration, Solid gain, Red onion, Water loss,
Abstract :
Osmotic dehydration is a process of partial removing of water from food by immersion of the product in a hypertonic aqueous solution. This study aimed to investigate the effect of osmotic dehydration on quality of hot- air- dried onion. Azarshahr red onion variety was used for the experiments. In order to define an optimum condition for osmo-drying process, some parameters including temperature, time and concentration of dehydration solution was evaluated. Based on water loss(WL) and solid gained (SG), the best treatment of temperature, time and concentration of dehydration solution were determined as 40˚C, 1 h and %5 respectively. One series of samples were prepared and dried in oven at 65˚C for 12 h. These samples were packed in two different ways including aluminium foil under the pressure of inert gas and in polyethylene packs. The samples were kept in ambient temperature. Every 2 months during storage period, parameters such as rehydration and organoleptic properties were performed on the samples.The results organoleptic test revealed that, the quality of samples decreases after 4 months of storage.Moreover, the samples that were packed by polyethylene showed the most desirable properties. Among osmotic samples, the degree of rehydration of the sample prepared with concentration of % 5 in 40˚C in 1 hour and packed in foil under inert gas, was greater than the other osmotic samples. Rehydration parameters had direct relation with temperature and the time of rehydration. Therefore, the amount of rehydration improves with increasing time and temperature.
Anonymuos, I.G.O.S. (2010). Iranian General Office Statistics . Design and programming department. Ministry of Agriculture[in Farsi].
Biswal, R.N. and Bozorgmehr, K. (1988). Mass transfer in osmotic dehydration With sodium chloride. International Summer Meeting of the ASAE: 60-88.
Bongirwar, D.R. and Sreenivasan, A. (1977). Studies on osmotic dehydration of banana. Journal of Food Science Technolgy, 14: 104-112.
Emam-djomeh, Z. (1998). Tranferent deau at de solute lors de la deshyration dun aliment model at de La Viand par immersion dans des solutions a plusiears Consti tuantss. These de doctoral Cleimont FD France.
Ertekin, F.K. and Cakaloz, T. (1996). Osmotic dehydration of pears: II in fluence of osmotic on drying behavior and product quality. Journal of Food Processing and Preservation, 20: 105-119.
Jayaraman, K.S., Dasgupta, D.K. and Babu Rao, N. (1990). Effect of pretreatment with salt and sucrose on the quality and stability of dehydrated cauliflower, International Journal of Food science and Technology, 25: 47-60.
Kar, A. and Gupta, D.K. (2001). Osmotic dehydration characteristics of Button Mushrooms. Journal of Food Science Technolgy, 38: 352-357.
Lazarides, H.N. (1999). Advance in osmotic dehydration in processing foods. (editors.F.A.R. oliveria. et al.) CRC Press, Newyork.
Lazarides, H.N. and Mavroudis, N.F. (1996). Kinetics of osmotic dehydration of a highly shrinking vegetable tissue in a salt –free medium. Journal of Food Engineering, 30:61-74.
Lenart, M. and Andrzaj, A. (1996). Osmo- Convective drying of fruits and vegetables: Technology and Application. Drying Technology, 14: 391- 413.
Main, G.L., Morris, J.R. and Wehunt, E.J. (1986). Effect of preprocessing treatments on the firmness and quality characteristics of whole and sliced strawberries after freezing and thermal processing. Journal of Food Science, 51: 391-394.
Mavroudis, N.E., Gekas, V. and Sjoholm, H. (1998). Osmotic dehydration of apples effects of agitation and raw material characteristics. Journal of Food Engineering, 35: 191- 208.
Panagiotou, N.M., Karathanos, V.T. and Maroulis, Z.B. (1999). Effect of osmotic agent on osmotic dehydration of fruits. Drying Technology, 17: 175-189.
Sagar, V. R. (2001). Preparation of onion powder by means of osmotic dehydration and its packaging and storage. Journal of Food Science and Technology, 38: 525-528.
Singh, H. (2001). Osmotic dehydration of carrot shreds for Gazraila Preparation. Journal of Food Science and Technology, 38:152-154.
