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All issues Volume 87 / No 3 (May-June 2007) Lait, 87 3 (2007) 187-236 References
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Lait
Volume 87, Number 3, May-June 2007
Free fat in dairy powders
Page(s) 187 - 236
DOI https://doi.org/10.1051/lait:2007010
Published online 21 July 2007
References of  Lait 87 (2007) 187-236
  1. Aguilar C.A., Ziegler G.R., Lactose crystallization in spray-dried milk powders exposed to isobutanol, Food Struct. 12 (1993) 43-50.
  2. Aguilar C.A., Ziegler G.R., Physical and microscopic characterization of dry whole milk with altered lactose content. 1. Effect of lactose concentration, J. Dairy Sci. 77 (1994) 1189-1197.
  3. Aguilar C.A., Ziegler G.R., Physical and microscopic characterization of dry whole milk with altered lactose content. 2. Effect of lactose crystallization, J. Dairy Sci. 77 (1994) 1198-1204.
  4. Allison S.D., Randolph T.W., Manning M.C., Middleton K., Davis A., Carpenter J.F., Effects of drying methods and additives on structure and function of actin: Mechanisms of dehydration-induced damage and its inhibition, Arch. Biochem. Biophys. 358 (1998) 171-181 [CrossRef] [PubMed].
  5. Allison S.D., Chang B., Randolph T.W., Carpenter J.F., Hydrogen bonding between sugar and protein is responsible for inhibition of dehydration-induced protein unfolding, Arch. Biochem. Biophys. 365 (1999) 289-298 [CrossRef] [PubMed].
  6. Attaie H., Breitschuh B., Braun P., Windhab E., The functionality of milk powder and its relationship to chocolate mass processing, in particular the effect of milk powder manufacturing and composition on the physical properties of chocolate masses, Int. J. Food Sci. Technol. 38 (2003) 325-335.
  7. Aule O., Worstorff H., Influence of mechanical treatment of milk on quantities of FFA and free fat in the milk, as well as on the separability of the milk, Annual Bulletin, Int. Dairy Fed. - Proceedings of the lipolysis symposium 86 (1975) 116-120.
  8. Auty M.A.E., Twomey M., Guinee T., Mulvihill D., Development and application of confocal scanning laser microscopy methods for studying the distribution of fat and protein in selected dairy products, J. Dairy Res. 68 (2001) 417-427 [CrossRef] [PubMed].
  9. Baechler R., Clerc M.-F., Ulrich S., Benet S., Physical changes in heat-treated whole milk powder, Lait 85 (2005) 305-314 [CrossRef] [EDP Sciences].
  10. Barbut S., Foegeding E.A., Ca2+-induced gelation of pre-heated whey protein isolate, J. Food Sci. 58 (1993) 867-871.
  11. Beristain C.I., Garcia H.S., Vernon-Carter E.J., Spray-dried encapsulation of cardamom (Elettaria cardamomum) essential oil with mesquite (Prosopis juliflora) gum, Lebensm. -Wiss. Technol. 34 (2001) 398-401 [CrossRef].
  12. Bhandari B.R., Dumoulin E.D., Richard H.M.J., Noleau I., Lebert A.M., Flavor encapsulation by spray drying - Application to citral and linalyl acetate, J. Food Sci. 57 (1992) 217-221.
  13. Blonk J.C.G., van Aalst H., Confocal scanning light microscopy in food research, Food Res. Int. 26 (1993) 297-311 [CrossRef].
  14. Buchheim W., Samhammer E., Lembke J., Light-microscopical visualization of fat on the surface of dried milk particles, Milchwissenschaft 29 (1974) 513-517.
  15. Buma T.J., A correlation between free fat content and moisture content of whole milk spray powders, Neth. Milk Dairy J. 22 (1968) 22-28.
  16. Buma T.J., Free fat in spray-dried whole milk. 1. General introduction and brief review of the literature, Neth. Milk Dairy J. 25 (1971) 33-41.
  17. Buma T.J., Free fat in spray-dried whole milk. 2. An evaluation of method for the determination of free fat content, Neth. Milk Dairy J. 25 (1971) 42-52.
  18. Buma T.J., Free fat in spray-dried whole milk. 3. Particle size. Its estimation, influence of processing parameters and its relation to free-fat content, Neth. Milk Dairy J. 25 (1971) 53-72.
  19. Buma T.J., Free fat in spray-dried whole milk. 4. Significance of free fat for other properties of practical importance, Neth. Milk Dairy J. 25 (1971) 88-106.
  20. Buma T.J., Free fat in spray-dried whole milk. 5. Cohesion, determination, influence of particle size, moisture content and free-fat content, Neth. Milk Dairy J. 25 (1971) 107-122.
  21. Buma T.J., Free fat in spray-dried whole milk. 8. The relation between free-fat content and the particle porosity of spray-dried milk, Neth. Milk Dairy J. 25 (1971) 123-140.
  22. Buma T.J., Free fat in spray-dried whole milk. 9. The size distribution of fat globules in concentrated milk and in spray-dried milk, Neth. Milk Dairy J. 25 (1971) 151-158.
  23. Buma T.J., Free fat in spray-dried whole milk. 10. A final report with a physical model for free-fat in spray-dried milk, Neth. Milk Dairy J. 25 (1971) 159-174.
  24. Buma T.J., The cause of particle porosity of spray-dried milk, Neth. Milk Dairy J. 26 (1972) 60-67.
  25. Buma T.J., Henstra S., Particle structure of spray-dried milk products as observed by a scanning electron microscope, Neth. Milk Dairy J. 25 (1971) 75-80.
  26. C.N.I.E.L., L'Économie Laitière en Chiffres, CIDIL, Paris, France, 2005.
  27. Caric M., Kaláb M., Effects of drying techniques on milk powders quality and microstructure: a review, Food Microstruct. 6 (1987) 171-180.
  28. Celestino E.L., Iyer M., Roginski H., The effects of refrigerated storage of raw milk on the quality of whole milk powder stored for different periods, Int. Dairy J. 7 (1997) 119-127 [CrossRef].
  29. Charlesworth D.H., Marshall W.R., Evaporation from drops containing dissolved solids, AIChE J. 6 (1960) 9-23.
  30. Christie W.W., Composition and structure of milk lipids, in: Fox P.F. (Ed.), Advanced Dairy Chemistry Volume 2 - Lipids, Chapman & Hall, London, UK, 1995, pp. 1-36.
  31. Clarke P.T., Augustin M.A., Manipulation of solvent-extractable fat content of milk powders, Lait 85 (2005) 261-268 [CrossRef] [EDP Sciences].
  32. Cribbin M., The spray way, Dairy Ind. Int. 68 (2003) 33.
  33. De Vilder J., Physical properties of whole dried milk prepared by a 2-stage process, Lait 60 (1980) 561-573 [CrossRef] [EDP Sciences].
  34. De Vilder J., Martens R., Naudts M., Influence of process variables on some whole milk powder characteristics, Milchwissenschaft 31 (1976) 396-401.
  35. De Vilder J., Martens R., Naudts M., The influence of the dry matter content, the homogenization and the heating of concentrate on physical characteristics of whole milk powder, Milchwissenschaft 34 (1979) 78-84.
  36. Dewettinck K., Huyghebaert A., Fluidized bed coating in food technology, Trends Food Sci. Technol. 10 (1999) 163-168 [CrossRef].
  37. Dewettinck K., Moor H., Huyghebaert A., The free fat content of dried milk products and flow properties of milk chocolate, Milchwissenschaft 51 (1996) 25-28.
  38. Elversson J., Millqvist-Fureby A., Particle size and density in spray drying-effects of carbohydrate properties, J. Pharm. Sci. 94 (2005) 2049-2060 [PubMed].
  39. Evers J.M., The milkfat globule membrane, compositional and structural changes post secretion by the mammary secretory cell. A review, Int. Dairy J. 14 (2004) 661-674 [CrossRef].
  40. Evers J.M., The milkfat globule membrane-methodologies for measuring milkfat globule (membrane) damage, Int. Dairy J. 14 (2004) 747-760 [CrossRef].
  41. Evers J.M., Crawford R., Robinson N., Harding D., McCarthy O., "Free fat" solvent extraction methods damage milkfat globules, Milchwissenschaft 56 (2001) 504-508.
  42. Fäldt P., Surface Composition of Spray-Dried Emulsions, Ph.D. thesis. Dept. Food Eng., Lund University, Lund, Sweden (1995).
  43. Fäldt P., Bergenståhl B., The surface composition of spray-dried protein-lactose powders, Coll. Surf. A Physicochem. Eng. Aspects 90 (1994) 183-190 [CrossRef].
  44. Fäldt P., Bergenståhl B., Fat encapsulation in spray-dried food powders, J. Am. Oil Chem. Soc. 72 (1995) 171-176 [CrossRef].
  45. Fäldt P., Bergenståhl B., Changes in surface composition of spray-dried food powders due to lactose crystallization, Lebensm.-Wiss. Technol. 29 (1996) 438-446 [CrossRef].
  46. Fäldt P., Bergenståhl B., Spray-dried whey protein/lactose/soybean oil emulsions. 1. Surface composition and particle structure, Food Hydrocoll. 10 (1996) 421-429.
  47. Fäldt P., Bergenståhl B., Spray-dried whey protein/lactose/soybean oil emulsions. 2. Redispersability, wettability and particle structure, Food Hydrocoll. 10 (1996) 431-439.
  48. Fäldt P., Sjöholm I., Characterization of spray-dried whole milk, Milchwissenschaft 51 (1996) 88-92.
  49. Fäldt P., Bergenståhl B., Carlsson G., The surface coverage of fat on food powders analyzed by ESCA (electron spectroscopy for chemical analysis), Food Struct. 12 (1993) 225-234.
  50. Fink A., Kessler H.G., Determination of free fat in cream for the assessment of damage caused to fat globules by processing, Milchwissenschaft 38 (1983) 330-334.
  51. Fink A., Kessler H.G., The effect of heating on the storage stability of unhomogenized cream (30%), Milchwissenschaft 40 (1985) 326-328.
  52. Fitzpatrick J.J., Iqbal T., Delaney C., Twomey T., Keogh M.K., Effect of powder properties and storage conditions on the flowability of milk powders with different fat contents, J. Food Eng. 64 (2004) 435-444 [CrossRef].
  53. Fitzpatrick J.J., Barry K., Cerqueira P.S.M., Iqbal T., O'Neill J., Roos Y.H., Effect of composition and storage conditions on the flowability of dairy powders, Int. Dairy J. 17 (2007) 383-392 [CrossRef].
  54. Fuchs M., Turchiuli C., Bohin M., Cuvelier M.E., Ordonnaud C., Peyrat-Maillard M.N., Dumoulin E., Encapsulation of oil in powder using spray drying and fluidised bed agglomeration, J. Food Eng. 75 (2006) 27-35 [CrossRef].
  55. Gaiani C., Ehrhardt J.J., Scher J., Hardy J., Desobry S., Banon S., Surface composition of dairy powders observed by X-ray photoelectron spectroscopy and effects on their rehydration properties, Coll. Surf. B Biointerfaces 49 (2006) 71-78 [CrossRef].
  56. Granelli K., Fäldt P., Appelqvist L.A., Bergenståhl B., Influence of surface structure on cholesterol oxidation in model food powders, J. Sci. Food Agric. 71 (1996) 75-82.
  57. Gurr M.I., Harwood J.L., Frayn K.N., Dietary lipids. Industrial processing may influence the chemical and physical properties of dietary fats either beneficially or adversely, in: Gurr M.I., Harwood J.L., Frayn K.N. (Eds.), Lipid Biochemistry, Blackwell Science, Oxford, UK, 2002, pp. 129-132.
  58. Gurr M.I., Harwood J.L., Frayn K.N., Lipids: definition, isolation, separation and detection, in: Gurr M.I., Harwood J.L., Frayn K.N. (Eds.), Lipid Biochemistry, Blackwell Science, Oxford, UK, 2002, pp. 1-12.
  59. Gurr M.I., Harwood J.L., Frayn K.N., Lipids as energy stores. The naming and structure of the acylglycerols (glycerides), in: Gurr M.I., Harwood J.L., Frayn K.N. (Eds.), Lipid Biochemistry, Blackwell Science, Oxford, UK, 2002, pp. 93-97.
  60. Hardas N., Danviriyakul S., Foley J.L., Nawar W.W., Chinachoti P., Accelerated stability studies of microencapsulated anhydrous milk fat, Lebensm.-Wiss. Technol. 33 (2000) 506-513 [CrossRef].
  61. Hardas N., Danviriyakul S., Foley J.L., Nawar W.W., Chinachoti P., Effect of relative humidity on the oxidative and physical stability of encapsulated milk fat, J. Am. Oil Chem. Soc. 79 (2002) 151-158 [CrossRef].
  62. Hogan S.A., McNamee B.F., O'Riordan E.D., O'Sullivan M., Microencapsulating properties of sodium caseinate, J. Agric. Food Chem. 49 (2001) 1934-1938 [CrossRef] [PubMed].
  63. Hogan S.A., McNamee B.F., O'Riordan E.D., O'Sullivan M., Emulsification and microencapsulation properties of sodium caseinate/carbohydrate blends, Int. Dairy J. 11 (2001) 137-144 [CrossRef].
  64. Hogan S.A., McNamee B.F., O'Riordan E.D., O'Sullivan M., Microencapsulating properties of whey protein concentrate 75, J. Food Sci. 66 (2001) 675-680.
  65. Holm G.E., Greenbank G.R., Deysher E.F., The effect of homogenization, condensation and variations in the fat content of a milk upon the keeping quality of its milk powder, J. Dairy Sci. 8 (1925) 515-522.
  66. Holsinger V.H., Physical and chemical properties of lactose, in: Fox P.F. (Ed.), Advanced Dairy Chemistry Volume 3 - Lactose, water, salts and vitamins, Chapman & Hall, London, UK, 1997, pp. 1-38.
  67. IDF, Standard 74A, Anhydrous milk fat. Determination of the peroxide value, 1991.
  68. IDF, The World Dairy Situation 2005 - Bull. IDF 399, Int. Dairy Federation, Brussels, Belgium, 2005.
  69. J.O.C.E., DIRECTIVE 2001/114/CE DU CONSEIL du 20 décembre 2001 relative à certains laits de conserve partiellement ou totalement déshydratés destinés à l'alimentation humaine - Annexe I: Dénominations et Définitions des Produits, (2002).
  70. Jensen R.G., The composition of bovine milk lipids: January 1995 to December 2000, J. Dairy Sci. 85 (2002) 295-350 [PubMed].
  71. Jouppila K., Roos Y.H., Water sorption and time-dependent phenomena of milk powders, J. Dairy Sci. 77 (1994) 1798-1808.
  72. Kaláb M., Microstructure of dairy foods. 2. Milk products based on fat, J. Dairy Sci. 68 (1985) 3234-3248 [PubMed].
  73. Kaláb M., Practical aspects of electron microscopy in dairy research, Food Struct. 12 (1993) 95-114.
  74. Kelly J., Kelly P.M., Harrington D., Influence of processing variables on the physicochemical properties of spray dried fat-based milk powders, Lait 82 (2002) 401-412 [CrossRef] [EDP Sciences].
  75. Keogh M.K., O'Kennedy B.T., Milk fat microencapsulation using whey proteins, Int. Dairy J. 9 (1999) 657-663 [CrossRef].
  76. Keogh M.K., O'Kennedy B.T., Kelly J., Auty M.A.E., Kelly P.M., Fureby A., Haahr A., Stability to oxidation of spray-dried fish oil powder microencapsulated using milk ingredients, J. Food Sci. 66 (2001) 217-224.
  77. Keogh M.K., Twomey M., O'Kennedy B.T., Mulvihill D., Effect of milk composition on spray-dried high-fat milk powders and their use in chocolate, Lait 82 (2002) 531-539 [CrossRef] [EDP Sciences].
  78. Kessler H.G., Fink A., Physico-chemical effects of pasteurization on cream properties, Bull. Int. Dairy Fed. 271 (1992) 11-17.
  79. Kim E.H.J., Chen X.D., Pearce D., Surface characterization of four industrial spray-dried dairy powders in relation to chemical composition, structure and wetting property, Coll. Surf. B Biointerfaces 26 (2002) 197-212 [CrossRef].
  80. Kim E.H.J., Chen X.D., Pearce D., On the mechanisms of surface formation and the surface compositions of industrial milk powders, Drying Technol. 21 (2003) 265-278 [CrossRef].
  81. Kim E.H.J., Chen X.D., Pearce D., Effect of surface composition on the flowability of industrial spray-dried dairy powders, Coll. Surf. B Biointerfaces 46 (2005) 182-187 [CrossRef].
  82. Kim E.H.J., Chen X.D., Pearce D., Melting characteristics of fat present on the surface of industrial spray-dried dairy powders, Coll. Surf. B Biointerfaces 42 (2005) 1-8 [CrossRef].
  83. King N., The physical structure of dried milk, Dairy Sci. Abstracts 27 (1965) 91-104.
  84. King N., Shimmin P.D., Microscopic observations on the dispersibility of milk powder particles in some organic liquids, J. Dairy Res. 28 (1961) 277-283.
  85. Kitchener J.A., Mussellwhite P.R., The theory of stability of emulsions, in: Sherman P. (Ed.), Emulsion Science, Academic Press, London, UK, 1968, pp. 77-130.
  86. Klinkesorn U., Sophanodora P., Chinachoti P., Decker E.A., McClements D.J., Encapsulation of emulsified tuna oil in two-layered interfacial membranes prepared using electrostatic layer-by-layer deposition, Food Hydrocoll. 19 (2005) 1044-1053 [CrossRef].
  87. Koc A.B., Heinemann P.H., Ziegler G.R., A process for increasing the free fat content of spray dried whole milk powder used for confectionery, in: ASAE/CSAE-SCGR Annual International Meeting, Toronto, Ontario, Canada, 1999, p. 1-14.
  88. Koc A.B., Heinemann P.H., Ziegler G.R., A process for increasing the free fat content of spray-dried whole milk powder, J. Food Sci. 68 (2003) 210-216.
  89. Labrousse S., Roos Y.H., Karel M., Collapse and crystallization in amorphous matrices with encapsulated compounds, Sci. Alim. 12 (1992) 757-769.
  90. Lamprecht A., Schafer U.F., Lehr C.-M., Characterization of microcapsules by confocal laser scanning microscopy: structure, capsule wall composition and encapsulation rate, Eur. J. Pharm. Biopharm. 49 (2000) 1-9 [PubMed].
  91. Lee S.Y., Rosenberg M., Microstructure of anhydrous milk fat/whey protein emulsions (Abstract), J. Dairy Sci. 75 (1992) 110.
  92. Liang B., Hartel R.W., Effects of milk powders in milk chocolate, J. Dairy Sci. 87 (2004) 20-31 [PubMed].
  93. Lindquist K., Brunner J.R., Composition of the free fat of spray-dried whole milk (Abstract), J. Dairy Sci. 45 (1962) 661.
  94. Lopez C., Focus on the supramolecular structure of milk fat in dairy products, Reprod. Nutr. Dev. 42 (2005) 497-511 [CrossRef].
  95. Lopez C., Bourgaux C., Lesieur P., Bernadou S., Keller G., Ollivon M., Thermal and structural behavior of milk fat. 3. Influence of cooling rate and droplet size on cream crystallization, J. Colloid Interface Sci. 254 (2002) 64-78 [CrossRef] [PubMed].
  96. Lopez C., Briard-Bion V., Camier B., Gassi J.Y., Milk fat thermal properties and solid fat content in Emmental cheese: a differential scanning calorimetry study, J. Dairy Sci. 89 (2006) 2894-2910 [PubMed].
  97. Lopez C., Camier B., Gassi J.Y., Development of the milk fat microstructure during the manufacture and ripening of Emmental cheese observed by confocal laser scanning microscopy, Int. Dairy J. 17 (2007) 235-247 [CrossRef].
  98. Mahaut M., Jeantet J., Brulé G., Schuck P., Les produits industriels laitiers, Lavoisier Tec et Doc, Paris, France, 2000.
  99. Masson G., Jost R., A study of oil-in-water emulsions stabilized by whey proteins, Colloid Polym. Sci. 264 (1986) 631-638 [CrossRef].
  100. Masters K., Spray-Air Contact, Particle Formation and Drying, in: Spray Drying in Practice, SprayDryConsult International ApS, Charlottenlund, Denmark, 2002, pp. 180-215.
  101. McClements D.J., Comments on viscosity enhancement and depletion flocculation by polysaccharides, Food Hydrocoll. 14 (2000) 173-177 [CrossRef].
  102. McCluskey S., Connolly J.F., Devery R., O'Brien B., Kelly J., Harrington D., Stanton C., Lipid and cholesterol oxidation in whole milk powder during processing and storage, J. Food Sci. 62 (1997) 331-337.
  103. McKenna A.B., Examination of whole milk powder by confocal laser scanning microscopy, J. Dairy Res. 64 (1997) 423-432 [CrossRef].
  104. McKenna A.B., Lloyd R., Munro P., Singh H., Microstructure of whole milk powder and of insolubles detected by powder functional testing, Scanning 21 (1999) 305-315.
  105. McPherson A.V., Kitchen B.J., Reviews of the progress of dairy science: the bovine milk fat globule membrane - its formation, composition, structure and behaviour in milk and dairy products, J. Dairy Res. 50 (1983) 107-133.
  106. McPherson A.V., Dash M.C., Kitchen B.J., Isolation and composition of milk fat globule membrane material. I. From pasteurized milks and creams., J. Dairy Res. 51 (1984) 279-287.
  107. McPherson A.V., Dash M.C., Kitchen B.J., Isolation and composition of milk fat globule membrane material. II. From homogenized and ultra heat treated milks, J. Dairy Res. 51 (1984) 289-297.
  108. Meerdink G., Drying of liquid food droplets. Enzyme inactivation and multicomponent diffusion, Drying Technol. 13 (1993) 483-485 [CrossRef].
  109. Millqvist-Fureby A., Characterisation of spray-dried emulsions with mixed fat phases, Coll. Surf. B Biointerfaces 31 (2003) 65-79 [CrossRef].
  110. Millqvist-Fureby A., Elofsson U., Bergenståhl B., Surface composition of spray-dried milk protein-stabilised emulsions in relation to pre-heat treatment of proteins, Coll. Surf. B Biointerfaces 21 (2001) 47-58 [CrossRef].
  111. Mistry V.V., Hassan H.N., Robison D.J., Effect of lactose and protein on the microstructure of dried milk, Food Struct. 11 (1992) 73-82.
  112. Mol J.J., The milk fat globule membrane and the solubility of whole milk powder, Neth. Milk Dairy J. 29 (1975) 212-224.
  113. Moreau D.L., Rosenberg M., Micro-structure and fat extractability in microcapsules based on whey proteins or mixtures of whey proteins and lactose, Food Struct. 12 (1993) 457-468.
  114. Moreau D.L., Rosenberg M., Oxidative stability of anhydrous milkfat microencapsulated in whey proteins, J. Food Sci. 61 (1996) 39-43.
  115. Moreau D.L., Rosenberg M., Porosity of whey protein-based microcapsules containing anhydrous milkfat measured by gas displacement pycnometry, J. Food Sci. 63 (1998) 819-823.
  116. Moreau D.L., Rosenberg M., Porosity of microcapsules with wall systems consisting of whey proteins and lactose measured by gas displacement pycnometry, J. Food Sci. 64 (1999) 405-409.
  117. Muir D.D., UHT-sterilized milk concentrate: a review of practical methods of production, J. Soc. Dairy Technol. 37 (1984) 135-141.
  118. Mulder H., Walstra P., Creaming and separation, in: Mulder H., Walstra P. (Eds.), The milk fat globule. Emulsion science as applied to milk products and comparable foods, Commonwealth Agricultural Bureaux (Farnham Royal) - Pudoc, Bucks-Wageningen, UK, 1974, pp. 139-162.
  119. Nijdam J.J., Langrish T.A.G., The effect of surface composition on the functional properties of milk powders, J. Food Eng. 77 (2006) 919-925 [CrossRef].
  120. Ollivon M., Keller G., Bourgaux C., Kalnin D., Villeneuve P., Lesieur P., DSC and high resolution X-ray diffraction coupling, J. Thermal Anal. Calorimetry 85 (2006) 219-224 [CrossRef].
  121. Onwulata C.I., Smith P.W., Craig J.C., Holsinger V.H., Physical properties of encapsulated spray-dried milkfat, J. Food Sci. 59 (1994) 316-320.
  122. Onwulata C.I., Smith P.W., Cooke P.H., Holsinger V.H., Particle structure of encapsulated milkfat powders, Lebensm.-Wiss. Technol. 29 (1996) 163-172 [CrossRef].
  123. Oortwijn H., Walstra P., The membranes of recombined fat globules. II. Composition, Neth. Milk Dairy J. 33 (1979) 134-154.
  124. Oortwijn H., Walstra P., The membranes of recombined fat globules. IV. Effects on properties of the recombined milks, Neth. Milk Dairy J. 36 (1982) 279-290.
  125. Oortwijn H., Walstra P., Mulder H., The membranes of recombined fat globules. I. Electron microscopy, Neth. Milk Dairy J. 31 (1977) 134-147.
  126. Özkan N., Walisinghe N., Chen X.D., Characterization of stickiness and cake formation in whole and skim milk powders, J. Food Eng. 55 (2002) 293-303 [CrossRef].
  127. Padley F.B., Gunstone F.D., Harwood J.L., Occurrence and characteristics of oils and fats. Major vegetable fats, in: Gunstone F.D., Harwood J.L.,Padley F.B. (Eds.), The Lipid Handbook, Chapman and Hall Ltd, New York, Cambridge, UK, 1986, pp. 55-112.
  128. Palanuwech J., Potineni R., Roberts R.F., Coupland J.N., A method to determine free fat in emulsions, Food Hydrocoll. 17 (2003) 55-62 [CrossRef].
  129. Pauletti M., Amestoy P., Butter microencapsulation as affected by composition of wall material and fat, J. Food Sci. 64 (1999) 279-282.
  130. Pedersen G.P., Fäldt P., Bergenståhl B., Kristensen H.G., Solid state characterisation of a dry emulsion: a potential drug delivery system, Int. J. Pharm. 171 (1998) 257-270 [CrossRef].
  131. Pisecký J., 20 years of instant whole milk powder, Scandi. Dairy Inf. 2 (1990) 1-5.
  132. Platon J.F., Emulsions et mousses alimentaires, in: Graille J. (Ed.), Lipides et corps gras alimentaires., Tec et Doc Lavoisier, Paris, France, 2003, pp. 317-354.
  133. Rennie P.R., Chen X.D., Hargreaves C., Mackereth A.R., A study of the cohesion of dairy powders, J. Food Eng. 39 (1999) 277-284 [CrossRef].
  134. Roetman K., Crystalline lactose and the structure of spray-dried milk products as observed by scanning electron microscopy, Neth. Milk Dairy J. 33 (1979) 1-11.
  135. Romeu-Nadal M., Chavez-Servin J.L., Castellote A.I., Rivero M., Lopez-Sabater M.C., Oxidation stability of the lipid fraction in milk powder formulas, Food Chem. 100 (2007) 756-763 [CrossRef].
  136. Rosenberg M., Lee S.L., Microstructure of whey protein/anhydrous milkfat emulsions, Food Struct. 12 (1993) 267-274.
  137. Rosenberg M., Sheu T.Y., Micro-encapsulation of volatiles by spray-drying in whey protein-based wall systems, Int. Dairy J. 6 (1996) 273-284 [CrossRef].
  138. Rosenberg M., Young S.L., Whey proteins as microencapsulating agents. Microencapsulation of anhydrous milkfat - structure evaluation, Food Struct. 12 (1993) 31-41.
  139. Rosenberg M., Kopelman I.J., Talmon Y., A scanning electron microscopy study of microencapsulation, J. Food Sci. 50 (1985) 139-144.
  140. Rosenberg M., Talmon Y., Kopelman I.J., The microstructure of spray-dried microcapsules, Food Microstruct. 7 (1988) 15-23.
  141. Rosenberg M., Kopelman I.J., Talmon Y., Factors affecting retention in spray-drying microencapsulation of volatile materials, J. Agric. Food Chem. 38 (1990) 1288-1294 [CrossRef].
  142. Saltmarch M., Labuza T.P., Influence of relative humidity on the physico-chemical state of lactose in spray-dried sweet whey powders, J. Food Sci. 45 (1980) 1231-1236.
  143. Schmidt D.G., Buchheim W., The application of electron microscopy in dairy research, J. Microsc. 167 (1992) 105-121.
  144. Schuck P., Bouhallab S., Durupt D., Vareille P., Humbert J.P., Marin M., Spray drying of wheys and derivatives, Lait 84 (2004) 243-268 [CrossRef] [EDP Sciences].
  145. Sharma S.K., Dalgleish D.G., Interactions between milk serum proteins and synthetic fat globule membrane during heating of homogenized whole milk, J. Agric. Food Chem. 41 (1993) 1407-1412 [CrossRef].
  146. Sharma S.K., Dalgleish D.G., Effect of heat treatments on the incorporation of milk serum proteins into the fat globule membrane of homogenized milk, J. Dairy Res. 61 (1994) 375-384.
  147. Sharma R., Singh H., Taylor M.W., Recombined milk: factors affecting the protein coverage and composition of fat globule surface layers, Aust. J. Dairy Technol. 51 (1996) 12-16.
  148. Sheu T.Y., Rosenberg M., Micro-encapsulation by spray drying ethyl caprylate in whey protein and carbohydrate wall systems, J. Food Sci. 60 (1995) 98-103.
  149. Sheu T.Y., Rosenberg M., Microstructure of microcapsules consisting of whey proteins and carbohydrates, J. Food Sci. 63 (1998) 491-494.
  150. Shimada Y., Roos Y.H., Karel M., Oxidation of methyl linoleate encapsulated in amorphous lactose-based food model, J. Agric. Food Chem. 39 (1991) 637-641 [CrossRef].
  151. Singh H., Sharma R., Taylor M.W., Creamer L.K., Heat-induced aggregation and dissociation of protein and fat particles in recombined milk, Neth. Milk Dairy J. 50 (1996) 149-166.
  152. Sliwinski E.L., Lavrijsen B.W.M., Vollenbroek J.M., van der Stege H.J., van Boekel M.A.J.S., Wouters J.T.M., Effects of spray drying on physicochemical properties of milk protein-stabilised emulsions, Coll. Surf. B Biointerfaces 31 (2003) 219-229 [CrossRef].
  153. Sloth Hansen P., Production of agglomerated fat-filled powder, J. Soc. Dairy Technol. 33 (1980) 19-23.
  154. Stapelfeldt H., Nielsen B.R., Skibsted L.H., Effect of heat treatment, water activity and storage temperature on the oxidative stability of whole milk powder, Int. Dairy J. 7 (1997) 331-339 [CrossRef].
  155. Surel O., Ali-Haimoud-Lekhal D., Milk fat: composition and modification after industrial treatments, Rev. Méd. Vét. 150 (1999) 681-690.
  156. Tamsma A., Edmondson L.F., Vettel H.E., Free-fat in foam dried whole milk, J. Dairy Sci. 42 (1959) 240-250.
  157. Te Whaiti I., Fryer T., Factors influencing the release of free fat in raw milk, N. Z. J. Dairy Sci. Technol. 11 (1976) 91-95.
  158. Te Whaiti I., Fryer T., The influence of free fat on lipolysis in milk, N. Z. J. Dairy Sci. Technol. 11 (1976) 273-274.
  159. The Truyen T., Orsi F., Fatty acid composition of free and bound fat in milk powders [refDie Fettsäure-Zusammensetzung des freien und gebundenen Fettes von Milchpulvern] (Abstract), Nahrung 21 (1977) 37-43 [PubMed].
  160. Thomas M.E.C., Scher J., Desobry-Banon S., Desobry S., Milk powders ageing: effect on physical and functional properties, Crit. Rev. Food Sci. Nutr. 44 (2004) 297-322 [CrossRef] [PubMed].
  161. Tuohy J.J., Some physical properties of milk powders, Ir. J. Food Sci. Technol. 13 (1989) 141-152.
  162. Turchiuli C., Fuchs M., Bohin M., Cuvelier M.E., Ordonnaud C., Peyrat-Maillard M.N., Dumoulin E., Oil encapsulation by spray drying and fluidised bed agglomeration, Innovative Food Sci. Emerging Technol. 6 (2005) 29-35.
  163. Twomey M., Keogh M.K., O'Kennedy B.T., Auty M.A.E., Mulvihill D., Effect of milk composition on selected properties of spray-dried high-fat and skim-milk powders, Ir. J. Agric. Food Res. 39 (2000) 79-94.
  164. Twomey M., Keogh M.K., O'Kennedy B.T., Mulvihill D., Seasonal effects of some milk powder characteristics on the rheology of milk chocolate, Ir. J. Agric. Food Res. 41 (2002) 105-116.
  165. van Boekel M.A.J.S., Folkerts T., Effect of heat treatment on the stability of milk fat globules, Milchwissenschaft 46 (1991) 758-765.
  166. van Boekel M.A.J.S., Walstra P., Physical changes in the fat globules in unhomogenized and homogenized milk, Bull. Int. Dairy Fed. 238 (1989) 13-16.
  167. Vanapalli S.A., Coupland J.N., Emulsions under shear - the formation and properties of partially coalesced lipid structures, Food Hydrocoll. 15 (2001) 507-512 [CrossRef].
  168. Verhey J.G.P., Physical properties of dried milk in relation to chocolate manufacture, Neth. Milk Dairy J. 40 (1986) 261-268.
  169. von Müller H.R., Electron-microscopical examination of milk and milk products. I. Examination of the structure of milk powders, Milchwissenschaft 19 (1964) 345-356.
  170. Walstra P., High-melting triglycerides in the milk fat globule membrane: an artefact?, Neth. Milk Dairy J. 28 (1974) 3-9.
  171. Walstra P., Some comments on the isolation of fat globule membrane material, J. Dairy Res. 52 (1985) 309-312.
  172. Walstra P., Physical chemistry of milk fat globules, in: Fox P.F. (Ed.), Advanced Dairy Chemistry Volume 2 - Lipids, Chapman & Hall, London, UK, 1995, pp. 131-178.
  173. Walstra P., Jenness R., Lipids, in: Walstra P., Jenness R. (Eds.), Dairy Chemistry and Physics, John Wiley & Sons, New York, USA, 1984, pp. 58-97.
  174. Walstra P., Jenness R., Milk Fat Globules, in: Walstra P., Jenness R. (Eds.), Dairy Chemistry and Physics, John Wiley & Sons, New York, USA, 1984, pp. 254-300.
  175. Walstra P., Jenness R., Properties of Milk Concentrates, in: Walstra P., Jenness R. (Eds.), Dairy Chemistry and Physics, John Wiley & Sons, New York, USA, 1984, pp. 301-335.
  176. Walstra P., Oortwijn H., The membranes of recombined fat globules. III. Mode of formation, Neth. Milk Dairy J. 36 (1982) 103-113.
  177. Walstra P., van Vliet T., Kloek W., Crystallization and rheological properties of milk fat, in: Fox P.F. (Ed.), Advanced Dairy Chemistry Volume 2 - Lipids, Chapman & Hall, London, UK, 1995, pp. 179-211.
  178. Westergaard V., Milk powder technology - Evaporation and spray-drying, A/S NIRO ATOMIZER, Copenhaguen, Denmark, 1983.
  179. Ye A., Singh H., Taylor M.W., Anema S.G., Interactions of whey proteins with milk fat globule membrane proteins during heat treatment of whole milk, Lait 84 (2004) 269-283 [CrossRef] [EDP Sciences].
  180. Ye A., Singh H., Taylor M.W., Anema S.G., Interactions of fat globule surface proteins during concentration of whole milk in a pilot-scale multiple-effect evaporator, J. Dairy Res. 71 (2004) 471-479 [CrossRef] [PubMed].
  181. Ye A., Anema S.G., Singh H., Behaviour of homogenized fat globules during the spray drying of whole milk, Int. Dairy J. 17 (2007) 374-382 [CrossRef].
  182. Young S.L., Sarda X., Rosenberg M., Microencapsulating properties of whey proteins. 1. Microencapsulation of anhydrous milk fat, J. Dairy Sci. 76 (1993) 2868-2877.
  183. Young S.L., Sarda X., Rosenberg M., Microencapsulating properties of whey proteins. 2. Combination of whey proteins with carbohydrates, J. Dairy Sci. 76 (1993) 2878-2885.