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2005 | 15-16 | 1 |

Tytuł artykułu

Wlasciwosci fizyczne suszonej sublimacyjnie zywnosci

Autorzy

Warianty tytułu

EN
Physical properties of freeze-dried food

Języki publikacji

PL

Abstrakty

PL
Wzrost zainteresowania żywnością przetworzoną sprzyja opracowywaniu nowych technologii, które pozwalają na otrzymanie produktów zachowujących w jak największym stopniu cenne właściwości surowca. W ostatnim czasie coraz więcej uwagi poświęca się procesowi liofilizacji.
EN
The recent increase of interest in processed food benefits the course of developing these new technologies that allow to sustain as many valuable properties of raw materials in the final product as possible. In the last few years especially the growing concern in freeze-drying has been noticed.

Wydawca

-

Rocznik

Tom

Numer

1

Opis fizyczny

s.17-20,bibliogr.

Twórcy

autor
  • Wydział Technologii Żywności, Szkola Glowna Gospodarstwa Wiejskiego, Warszawa
autor
  • Wydział Technologii Żywności, Szkola Glowna Gospodarstwa Wiejskiego, Warszawa

Bibliografia

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  • [2] Barbanti, D., Mastracola, D., Pinnavaia, G. Severini, C., Dalia Rosa, M. (1991): Air drying of fruit; Effects of different pre-treatment on drying rate and product quality. Proceedings of the 7th International Drying Symposium. Drying’91 (eds. AS. Mujumdar, I. Filkova), Elsevier Sci. Publ., Amsterdam, 471 -482.
  • [3] Bell, L.N., Labuza, T. P.( 1992): Compositional influence on the pH of reduced moisture solutions. Journal of Food Science, 57,732-734.
  • [4] Bellows, R. J., King, C. J.(1973): Products collapse during freeze drying of liquid foods. AIChe Symposium Series, 69(132), 33-41.
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  • [6] Chirife, J.(1988): Principios de la deshidración osmótica de frutas. Anales Asoc. Quim. Argentina, 70,913-932.
  • [7] Cosio, R. R. (1997). Lyophilisation sous vide de la banana (Cavendish, poyo). Incidence des conditions opératoires sur la qualité. PhD thesis, INA-PG, Paris.
  • [8] Erle U., Schubert H.(2001): Combined osmotic and microwave-vacuum dehydration of apples and strawberries. Journal ofFood Engineering, 49(2/3), 193-199.
  • [9] Eshtiaghi, M. N., Stute, R., Knorr, D. (1994): High-pressure and freezing pretreatment effects on drying, rehydration, texture and color of green beans, carrots and potatoes. Journal of Food Science, 59, 1168-1170.
  • [10] Flink, J.M.( 1983): Nonenzimatic browning of freeze-dried sucrose. Journal of Food Science, 48,539-542.
  • [11] Hammami C., Rene F.(1997): Determination of freeze-drying process variables for strawberries. Journal of Food Engineering, 32(2), 133-154.
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  • [13] Iwaniw, D.C., Mattal, G. S. (1990): Process optimization of freeze dried strawberries. Canadian Agricultural Engineering, 32(2), 323-328.
  • [14] Jancovie, M. (1993): Physical properties of convectively dried and freeze-dried berrylike fruits. A Publication of the Faculty of Agriculture, Belgrade 3 8(2), 129-135.
  • [15] Kabbert, R., Hermuth, K., Kunzek, H. (1993): Wasserbindungskapazität und Makrostruktur von Apfelgewepartikeln Z. Lebensm. Unters. Forsch., 196,219- 223.
  • [16] Karathanos, V. T., Anglea, S. A., Karel, M. (1996a): Structure collapse of plant materials during freeze drying. Journal Thermal Analysis, 46(5), 1541-1551.
  • [17] Karmas, R., Buera, M. P, Karel, M. (1992): Effect of glass transition on rates of nonenzymatic browning in food systems. Journal of Agricultural and Food Chemistry, 40,873- 879.
  • [18] Krokida M.K., Madrinos-Kouris D. (2003): Rehydration kinetics of dehydrated products. Journal of Food Engineering 57, 1-7.
  • [19] Krokida, M. K., Karathanos, V.T., Moroulis, Z.B. (1998): Effect of Freeze-drying Conditions on shrinkage and porosity of dehydrated agricultural products. Journal of Food Engineering, 35,369-380.
  • [20] Kulisiewicz, J., Kolasa, J. (1974): Sugar as factor enhancing the quality of frozen strawberries, as exemplified by the freezing plant of the agricultural centre of the „Samopomoc Chłopska” Cooperative in Sochaczew. Przemysł Spożywczy 28(10): 433-453.
  • [21] Le Loch-Bonazzi, C, Wolff, E. & Gilbert, H. (1992): Quality of dehydrated cultivated mushrooms (Agaricus Bisporus); A comparision between different drying and freeze-drying process. Lebensm. Wiss. Technol., 25,334-339.
  • [22] Leistner, L. (1995): Use of hurdle technology in food processing: Recent advances. In G. Barbosa-Cánovas, J Welti. Chanes, Food Preservation by Moisture Control. Fundamentals and Applications: ISOPOW Pract. II (377-396). Lancaster: PA: Technomic Publishing.
  • [23] Levi, G., Karel, M. (1995): Volumetric shrinkage (collapse) in freeze-dried carbohydrates above their glass transition temperature. Food Research International, 28(2), 145-151.
  • [24] Lewicki P.P.(1998): Some Remarks on Rehydration of Dried Foods. Journal of Food Engineering, 36,81-87.
  • [25] Longan, B.J. (1973): Effect of processing variables on quality of freeze-dried carrots. Ph. D. dissertation. Texas A & M University.
  • [26] Mastarcola, D., Dalia Rosa, M., Massini, R. (1998):Freeze- dried strawberries rehydrated in sugar solutions: Mass transfers and characteristics of final products. Food Research International, 30 (5), 359-363.
  • [27] Mazza, G., Brouillard, R. (1987): Recent developments in the stabilization of anthocyanins in food products. Food Chemistry, 25,207-225.
  • [28] Nastaj, J.F. (1996): Some aspects of freeze drying of dairy materials. Drying Technology, 14 (9), 1967-2002.
  • [29] Pääkönen, K., Mattila, M. (1991): Processing, packaging, and storage effects on anality of freeze-dried strawberries. Journal of Food Science, 56(5), 1388-1392.
  • [30] Pappas, C., Tsami, E., & Marinos-Kouris, D. (1999): The effect of process conditions on the drying kinetics and rehydration characteristics of some MW-vacuum dehydrated foods. Drying Technology, 17(1-2), 157-174.
  • [31] Peleg, M. (1996): On modeling changes in food and biosolids at and around their glass transition temperature range. Critical Reviews in Foods Science and Nutrition, 36,49-67.
  • [32] Raghavan G.S.V., Silveira A.M., Tambunan A.H. (2001): Shrinkage characteristics of strawberries osmotically dehydrated in combination with microwave drying. First Asia-Australia Drying Conference, Bali, Indonesia, October 1999. Drying-Technology, 19(2), 405-414.
  • [33] Ratti, C. (2001): Hot air and freeze-drying of high-value foods: a review. Journal of Food Engineering, 49,311 -319.
  • [34] Roos, Y. (1987): Effect of moisture on the thermal behavior of strawberries studied using differential scanning calorimetry. Journal of Food Science, 52 (1), 146-149.
  • [35] Shau Le Ngoh. (1973): Changes in total anthocyanin content of strawberries and raspberries during freezing and storage. Nauchni Trudove, Vissh Institut po Khranithea i Vkusova Promyshlennost 20(1): 51. [In Food Science Technology Abstracts (1974) 6 (9): J1235].
  • [36] Shi, X. Q., Fito, P., Chiralt, A. (1995): Influence of vacuum treatment on mass transfer during osmotic dehydration of fruits. Food Research International 28(5), 445-454.
  • [37] Shishehgarha F., Ratti, C. (1999): Changes in color and volume of berries during freeze-drying. ASAE annual international meeting. July 18-21, Toronto, Canada.
  • [38] Shishehgarha F., Makhlouf J., Ratti C. (2002): Freeze-drying characteristics of strawberries. Drying Technology, 20(1), 131-145.
  • [39] Silesio, F., Moneta, E. Patoro, P., Quaglia, G.B. (1995): Determination of sensory quality of dehydrated vegetables with profiling. Ital. J. Food Sci., 1,11-18.
  • [40] Simatos, D., Blond, G., Dauvois, Ph., Sauvageot, f. (1974).: La lyophilisation: Principes et Applications. Collection de I'ANRT, Paris.
  • [41] Telis, V. R. N.; Sobral, P. J. A. (2001):Glass transitions and state diagram for freeze-dried pineapple. Lebensm,-Wiss. U.-Technol., 34,199-205.
  • [42] Tulasidas, T.N., Raghavan, G.S.V, Kudra, T., Gariepy, Y., Akyel, C. (1994): Microwave drying of grapes in a single mode resonant cavity with pulsed power. PaperNo 94-6547 ASAE, 2950 Niles Rd., St. Joseph. MI 49085-9659 USA.
  • [43] Venkatachalapathy, K., Raghavan, G. S. V. (1998): Shrinkage of strawberries during microwave drying. Drying’98, Vol. B, 1358-1366. Halkidiki-Greece.
  • [44] Wiliams, M. L., Landei, R. F., Ferry, J. D. (1995): The temperature dependence of relaxation mechanisms in amorphous polymers and other glass-forming liquids. J. Am. Chem.Soc., 77,3701-3707.
  • [45] Wrolstad R.E., Skrede G., Lea R, Enersen G. (1990): Influence of sugar on anthocyanin pigment stability in frozen strawberries. Journal ofFood Science, 55(4), 1064-1065.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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