Free access
Volume 60, Number 5, September-October 2005
Page(s) 341 - 349
Published online 15 January 2006
  1. Hick D., Nutritional value and safety of processed fruits, in: Hick D., Packaging of non–carbonated fruit juices and beverages, Van Nostrand Reinbold, New York, USA, 1990.
  2. Wiseman A., Enzyme biotechnology, 2nd ed., Ellis Harwood Publ. Ltd, Chichester, England, 1987.
  3. Nordisk N., Papaya juice extraction, Biotimes 10 (1994) 10–11.
  4. Robinson D.S., Food biochemistry and nutritional value, Longman Scientific & Technical, Harlow, UK, 1987.
  5. Hough J.S., Malting and brewing science, Vol. 2, 2nd ed., Chapman and Hall, London, UK, 1997, p. 456.
  6. Potter N.N., Hotchkiss J.H., Food science, 5th ed., Chapman & Hall Ltd., London, UK, 1995.
  7. Okorie O., Enhancement potentials of enzymes. Alum and electric current on extraction of fruit juices, Michael Okpara Univ., Dept Food Sci. Technol., thesis, Umudike, Nigeria, 2002.
  8. Parrott D.L., Use of ohmic heating for aseptic processing of food particulates, Food Technol. 46 (12) (1992) 68–72.
  9. Gorenkov E.C., Gorenkov A.N., Ykacheva G.G., Vegetable, in: Depid T.F., Food preservation technology, Agroprom, Moscow, Russia, 1987, pp. 90–92.
  10. Bazhal M.J., Vorobiev E., Electrical treatment of apple slices for intensifying juice pressing, J. Sci. Food Agr. 80 (2000) 1668–1674. [CrossRef]
  11. Knorr D., Angerbach A., Impact of high intensity electric field pulses on plant membrane permeabilization, Trends Food Sci. Tech. 9 (1998)185–191.
  12. Barbosa–Canovas G.V., Pierson M.D., Zhang Q.H., Schaffuer D.W., Pulse electric fields, J. Food Sci. 65 (Suppl.) (2000) 65–79.
  13. McLellan M.K., Kime P.L., Electroplasmolysis and other treatment to improve apple juice yield, J. Sci. Food Agr. 57 (1991) 303–306. [CrossRef]
  14. Gudmundsson M., Mafsteinsson H., Effect of electric field pulses on microstructure of muscle foods and roes, Trends Food Sci. Tech. 12 (2001) 122–128. [CrossRef]
  15. Fincan M., Dejmek P., In situ visualization of the effect of a pulse electric field on plant tissues, J. Food Eng. 55 (3) (2002) 223–230. [CrossRef]
  16. Winterhalter M., Hellrich W., Effect of voltage on pores in membranes, Phys. Rev. A 36 (12) (1987) 5874–5876. [CrossRef] [PubMed]
  17. Teissie J., Eynard N., Gabriel B., Rols M.P., Electric permeabilization of cell membrane, Adv. Drug Deliver. Rev. 53 (1999) 3–19. [CrossRef]
  18. Gulyi I.S., Lebovka N.I., Mank V.V., Kupchik M.P., Bazhal M.I., Matvienko A.B., Papchenko A.Y., Scientific and practical principle of electrical treatment of food products and materials, UKriNTE, Kiev, Russia (in Russian), 1994.
  19. Jemai A.B., Contribution à l’étude de l’effet d’un traitement électrique sur les cossettes de betterave à sucre. Incidence sur le procédé d’extraction, Univ. Technol. Compiègne, Compiègne, France, 1997.
  20. Sensoy I., Sastry S.K., Extraction using moderate electric fields, J. Food Sci. 69 (1) (2004) (FEP7–FEP13).
  21. Anon., Official methods of analysis, 15th ed., Association of Official Analytical Chemist (AOAC), Washington DC, USA, 1990.
  22. Steel R.G.D., Torrie J.H., Principles and procedures of statistic, a biometrical approach, 2nd ed., McGraw-Hill Kogakusha Ltd., Tokyo, Japan, 1980.
  23. Ihekoronye A.I., Ngoddy P.O., Integrated food science and technology for the tropics, Macmillan Educ. Ltd., London, UK, 1985.
  24. Shakuntala N.M., Shadaksharawamy M., Food facts and principles, Wiley Eastern Ltd., New Delhi, India, 1987, pp. 174–198
  25. Sastry S.K., Ohmic heating, in: Singh R.P., Oliveira F.A.R., Minimal processing of food and process optimization: an interface, CRC Press Inc., Boca Raton, USA, 1994, pp. 17–33.
  26. Palaniappan S., Sastry S.K., Electrical conductivity of selected solid foods during ohmic heating, J. Food Process. Eng. 14 (1991) 221–236. [CrossRef]
  27. Palaniappan S., Sastry S.K., Electrical conductivity of selected juices: influence of temperature, solid contact, applied voltage and particle size, J. Food Process. Eng. 14 (1991) 247–260. [CrossRef]
  28. Halden K., Alwis A.A.P. de, Fryer P.J., Changes in electrical conductivity of foods during ohmic heating, Int. J. Food Sci. Tech. 25 (1990) 9–25. [CrossRef]
  29. Tolstoguzov V.B., Ionic strength and poly ion charges, Int. Food Ingred. 2 (1990) 8–9.
  30. Onuorah C.E., Enegbede E.L., Utuora N., Production and assessment of vitamin C syrup from guava and sweet potato, Nifoj, Publ. Niger. Inst. Food Sci. Tech. 19 (2001) 37.
  31. Hume A.C., Biochemistry of fruits and their products, Academic Press, London and New York, USA, 1971.
  32. Henry L.K., Catignani G.L., Schwartz S.J., Oxidative degradation kinetic of lycopene, lutein and 9–cis and all-trans-Formula -carotene, J. Am. Oil Chem. Soc. 75 (7) (1998) 823–829. [CrossRef]
  33. Woodall A.A., Lee S.W.-M., Weesie R.J., Jackson M.J., Briton G., Oxidation of carotenoid by free radicals: relationship between structure and reactivity, Biochem. Biophys. Acta 1336 (1997) 33–42.
  34. Pristley R.J., Effect of heating on food stuffs, in: Encyclopedia of food science, Appl. Sci. Publ. Ltd., London, UK, 1979, p. 287.
  35. Salunke N., Bolin C., Reddy I., Structure and composition of fruits, Mcgraw Hill Publ., New York, USA, 1991.
  36. Labusa T.P., Shelf life dating of foods, Westport Connecticut Food and Nutritional Press, Westport-Connecticut, USA, 1982.
  37. Aparico–Cuesta M.P., Garcia–Moreno C., Quality of frozen cauliflower during storage, J. Food Sci. 53 (2) (1998) 491–493. [CrossRef]
  38. Lisiewska Z., Kimiecik W., Effect of freezing and storage on quality factors in homburg and leafy parsley, Food Chem. 60 (4) (1997) 633–637. [CrossRef]
  39. Martins R.C., Silva C.L.M., Kinetics of frozen stored green bean (Phaseolus vulgaris L.) quality changes: texture, vitamin C, reducing sugars, and starch, J. Food Sci. 68 (7) (2003) 2232–2237. [CrossRef]
  40. Favell D.J., A comparison of vitamin C content of fresh and frozen vegetables, Food Chem. 62 (1) (1998) 59–64. [CrossRef]