Effect of carrageenan and carboxy methyl cellulose coating during osmotic dehydration on drying time and rehydration of Golden delicious apples

Document Type : Research Paper

Authors


عسکری  غ، امام جمعه ز، و ابراهیم زاده موسوی م‌ ع، 1384، بررسی تغییرات برخی ویژگی های فیزیکی برگه های سیب خشک­شده با روش ترکیبی خشک کن هوای گرم و مایکروویو. مجله تحقیقات مهندسی کشاورزی. جلد 6، شماره 24.
Amami E, Fersi A, Khezami L, Vorobiev E, Kechaou N, 2007. Centrifugal osmotic dehydration and rehydration of carrot tissue pre-treated by pulsed electric field. Lebensmittel-Wissenschaft &Technologie 40: 1156-1166.
Deep Singh G, Sharma R, Bawa AS, Saxena DC, 2008. Drying and rehydration characteristics of water chestnut (Trapanatans) as a function of drying air temperature. Journal of Food Engineering 87: 213- 221.
Dehghannya J., Emam-Djomeh Z, Sotudeh-Gharebagh R, Ngadi M, 2006. Osmotic Dehydration of Apple Slices with Carboxy-Methyl Cellulose Coating. Drying technology 24(1): 45-50.
Fellows P, 1990. Food Processing Technology,Principles and Practice. Ellis Horwood, NewYork.
Garcia M, Diaz R, Martinez Y, Casariego A, 2010. Effects of chitosan coating on mass transfer during osmotic dehydration of papaya. Food Research International 43 (6): 1656-1660.
Jena S, Das H, 2000. Modeling for moisture variation during osmo-concentration in apple and pineapple. Journal of Food Engineering 66:425-432.
Khin MM, Zhou W, Perera CO, 2000. Development in the Combined Treatment of Coating and Osmotic Dehydration of Food- A Review. Journal of Food Engineering 1(1): 78-90.
Khin MM, Zhou W, Perera CO, 2006. A study of the mass transfer in osmotic dehydration of coated potato cubes. Journal of Food Engineering 77(1): 84-95.
Khin MM, Zhou W, Perera CO, 2007. Impact of process conditions and coatings on the dehydration efficiency and cellular structure of apple tissue during osmotic dehydration. Journal of Food Engineering 79(3): 817-827.
Khin MM, Zhou W, Perera CO, 2007. Mass transfer in the osmotic dehydration of coated apple cubes by using maltodextrin as the coating material and their textural properties. Journal of Food Engineering 81(3): 514-522.
Lazarides HN, Mitrakas GE, Matsos KI, 2007. Edible coating and counter-current product/solution contacting: A novel approach to monitoring solids uptake during osmotic dehydration of a model food system. Journal of Food Engineering 82(2): 171-177.
Matuska M, Lenart A, Lazarides HN, 2006. On the use of edible coatings to monitor osmotic dehydration kinetics for minimal solids uptake.  Journal of Food Engineering 72(1): 85-91.
Moreira R, Chenlo F, Chaguri L, Fernandes C, 2008. Water absorption, texture, and color kinetics of air-dried chestnuts during rehydration. Journal of Food Engineering 86: 584-594.