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All issues Volume 88 / No 1 (January-February 2008) Dairy Sci. Technol., 88 1 (2008) 65-80 References
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Issue
Dairy Sci. Technol.
Volume 88, Number 1, January-February 2008
3rd International Spray Dried Milk Conference
Page(s) 65 - 80
DOI https://doi.org/10.1051/dst:2007017
Published online 21 February 2008
References of  Dairy Sci. Technol. 88 (2008) 65-80
  1. Anandharamakrishnan C., Rielly C.D., Stapley A.G.F., Thermal denaturation of whey proteins during spray-drying, in: Proceedings of the 15th International Drying Symposium, Budapest, Hungary (2006) 1265-1272.
  2. Andrieu J., Stamatopoulos A., Zafiropoulos M., Equation for fitting desorption isotherms of durum wheat pasta, J. Food Technol. 40 (1985) 651-657.
  3. Bernard C., Broyart B., Vasseur J., Relkin P., Production of whey protein powders with controlled end-use properties, in: Proceedings of the 15th International Drying Symposium, Budapest, Hungary (2006) 1279-1286.
  4. Birchal V.S., Passos M.L., Modelling and simulation of drying milk emulsion in spray dryers, in: Proceedings of the 14th International Drying Symposium, Sao Paulo, Brazil (2004) 1561-1568.
  5. Birchal V.S., Passos M.L., Wildhagen G.R.S., Mujumdar A.S., The influence of spray dryer operation variables on milk powder quality, in: Proceedings of the 14th International Drying Symposium, Sao Paulo, Brazil (2004) 389-396.
  6. Birlouez-Aragon I., Sabat P., Gouti N., A new method for descrimining milk heat treatment, Int. Dairy J. 12 (2002) 59-67 [CrossRef].
  7. Borios C., Lancelot J., Davenas P., Ilari J.L., Vérification industrielle de l'influence de certains paramètres technologiques de fabrication sur les propriétés physiques de la poudre de lait écrémé, Ind. Alim. Agricol. 101 (1984) 1211-1219.
  8. Chong L.V., Chen X.D., A mathematical model of the self-heating of spray-dried food powders containing fat, protein, sugar and moisture, Chem. Eng. Sci. 54 (1999) 4165-4178 [CrossRef].
  9. Damodaran S., Protein-stabilized foams and emulsions, M. Dekker Inc., New York, USA, 1997, pp. 57-110.
  10. Donovan M., Mulvihill D.M., Thermal denaturation and aggregation of whey proteins, Irish J. Food Sci. Technol. 11 (1987) 1187-100.
  11. Farid M., A new approach to modelling of single droplet drying, Chem. Eng. Sci. 58 (2003) 2985-2993 [CrossRef].
  12. Ferrari G., Meerdink G., Walstra P., Drying kinetics for a single droplet of skim-milk. J. Food Eng. 10 (1989) 215-230.
  13. Fletcher D.F., Guo B., Harvie D.J.E., Langrish T.A.G., Nijdam J.J., Williams J., What is important in the simulation of spray dryer performance and how do current CFD models perform? Appl. Math. Modell. 30 (2006) 1281-1292 [CrossRef].
  14. Galani D., Apenten R.K.O., Heat-induced denaturation and aggregation of $\beta $-lactoglobulin: kinetics of formation of hydrophobic and disulphide-linked aggregates, Int. J. Food Sci. Technol. 34 (1999) 467-476 [CrossRef].
  15. German J.B., O'Neil T.E., Kinsella J.E., Film forming and foaming behaviour of food proteins, J. Am. Oil Chem. Soc. 62 (1985) 1358-1366 [CrossRef].
  16. Graham D.E., Phillips M.C., The conformation of proteins at the air-water interface and their role in stabilizing foams, in: Ackers R.J. (Ed.), Foams, Academic Press, London, England, 1976, pp. 195-215.
  17. Guillerme C., Loisel W., Bertrand D., Popineau Y., Study of foam stability by video image analysis: relationship with the quantity of liquid in foams, J. Text. Stud. 24 (1993) 287-303 [CrossRef].
  18. Hagolle N., Launay B., Relkin P., Impact of structural changes and aggregation on adsorption kinetics of ovalbumin at acid and neutral pH, Colloids Surf. B: Biointerfaces 10 (1998) 191-198 [CrossRef].
  19. Hagolle N., Relkin P., Popineau Y., Bertrand D., Study of the stability of egg white protein-based foams: effect of heating protein solution, J. Sci. Food Agric. 80 (2000) 1245-1252 [CrossRef].
  20. Langrish T.A.G., Fletcher D.F., Spray drying of food ingredients and applications of CFD in spray drying, Chem. Eng. Process 40 (2001) 345-354 [CrossRef].
  21. Lin S.X.Q., Chen X.D., The reaction engineering approach to modelling the cream and whey protein concentrate droplet drying, Chem. Eng. Process. 46 (2007) 437-443 [CrossRef].
  22. Loncin M., Bimbenet J.J., Bases du génie des procédés alimentaires, Masson (Ed.), Paris, 1995.
  23. Marin I., Relkin P., Foaming properties of $\beta $-lactoglobulin: impact of pre-heating and addition of isoamyl acetate, Int. J. Food Sci. Technol. 34 (1999) 515-522.
  24. Masters K., Spray Drying in: practice, SprayDryConsult International Aps (Ed.), Denmark, The Netherlands, 2002.
  25. Millqvist-Fureby A., Elofsson U., Bergenstähl B., Surface composition of spray-dried milk protein-stabilized emulsions in relation to pre-heat treatment of proteins, Colloids Surf. B: Biointerfaces 21 (2001) 47-58 [CrossRef] [PubMed].
  26. Morales F.J., Romero C, Jimenez-Perez S., Fluorescence associated with Maillard reaction in milk and milk-resembling systems, Food Chem. 57 (1996) 423-428 [CrossRef].
  27. Morr C., Ha E.Y.W., Whey protein concentrates and isolates: processing and functional properties, Food Sci. Nutr. 33 (1993) 431-476.
  28. Nijdam J.J., Langrish T.A.G., The effect of surface composition on the functional properties of milk powders, J. Food Eng. 77 (2006) 919-929 [CrossRef].
  29. Oldfield D.J., Taylor M.W., Singh H., Effect of preheating and other process parameters on whey protein reactions during skim milk powder manufacture, Int. Dairy J. 15 (2005) 501-511 [CrossRef].
  30. Patel P.D., Stripp A.M., Fry J.C., Whipping test for the determination of foaming capacity of protein: A collaborative study, Int. J. Food Sci. Technol. 33 (1988) 57-63.
  31. Parti M., Palancz B., Mathematical model for spray drying, Chem. Eng. Sci. 29 (1974) 355-362 [CrossRef].
  32. Pisecky J., Spray drying in the cheese industry, Int. Dairy J. 15 (2005) 531-536 [CrossRef].
  33. Relkin P., Using DSC for monitoring protein conformation stability and effect of fat droplets crystallinity in complex food emulsions, in: Lorincz D. (Ed.), The nature of biological systems as revealed by thermal analysis, Kluwer Academic Publishers, London, England, 2004, pp. 99-126.
  34. Relkin P., Bernard C., Meylheuc T., Vasseur J., Courtois F., Production of whey protein aggregates with controlled end-use properties, Lait 87 (2007) 337-348 [CrossRef] [EDP Sciences].
  35. Relkin P., Hagolle N., Dalgleish D.G., Launay B., Foam formation and stabilisation by pre-denatured ovalbumin, Colloids Surf. B: Biointerfaces 12 (1999) 409-416 [CrossRef].
  36. Relkin P., Launay B., Concentration effects on the kinetics of $\beta $-lactoglobulin heat denaturation: a differential scanning calorimetric study, Food Hydrocoll. 4 (1990) 19-32.
  37. Schuck P., Piot M., Méjean S., Fauquant J., Brulé G., Maubois J.-L., Déshydratation par atomisation de phosphocaséinate natif obtenu par microfiltration sur membrane, Lait 74 (1994) 375-388 [CrossRef] [EDP Sciences].
  38. Singh H., Creamer L.K., Denaturation, aggregation and heat stability of milk protein during the manufacture of skim powder, J. Dairy Res. 58 (1991) 269-283.
  39. Sourdet S., Relkin P., César B., Structuration of complex food emulsions by pre-heated milk proteins, Colloids Surf. B: Biointerfaces 31 (2003) 55-64 [CrossRef].
  40. Straatsma J., Van Houwelingen G., Steenbergen A.E., De Jong P., Spray drying of food products: 1. Simulation model, J. Food Eng. 42 (1999) 67-72 [CrossRef].
  41. Verdurmen R.E.M., Straatsma H., Verschueren M., Van Haren J.J., Smit E., Bargeman G., De Jong P., Modelling spray drying processes for dairy products, Lait 82 (2002) 453-463 [CrossRef] [EDP Sciences].
  42. Wilde P.J., Clark D.C., Foam formation and stability, in: Hall G.M. (Ed.), Methods of testing protein functionality, Blackie Academic and Professional, London, England, 1996, pp. 110-152.