REFERENCES
- Faldt, P.; Bergenstahl, B. Spray-dried whey protein/lactose/soybean oil emulsions. 2. Redispersability, wettability and particle structure. Food Hydrocolloids 1996, 10(4), 431–439.
- Drusch, S.; Hamann, S.; Berger, A.; Serfert, Y.; Schwarz, K. Surface accumulation of milk proteins and milk protein hydrolysates at the air-water interface on a time-scale relevant for spray-drying. Food Research International 2012, 47(2), 140–145.
- Gaiani, C.; Mullet, M.; Arab-Tehrany, E.; Jacquot, M.; Perroud, C.; Renard, A.; Scher, J. Milk proteins differentiation and competitive adsorption during spray-drying. Food Hydrocolloids 2011, 25, 983–990.
- Jayasundera, M.; Adhikari, B.; Aldred, P.; Ghandi, A. Surface modification of spray dried food and emulsion powders with surface active proteins—a review. Journal of Food Engineering 2009, 93(3), 266–277.
- Kim, E.H.J.; Dong Chen, X.; Pearce, D. On the mechanisms of surface formation and the surface compositions of industrial milk powders. Drying Technology 2003, 21(2), 265–278.
- Birchal, V.S.; Laura Passos, M.; Wildhagen, G.R.S.; Mujumdar, A.S. Effect of spray-dryer operating variables on the whole milk powder quality. Drying Technology 2005, 23, 611–636.
- Jones, J.R.; Prime, D.; Leaper, M.C. Effect of processing variables and bulk composition on the surface composition of spray dried powders of a model food system. Journal of Food Engineering 2013, 118(1), 19–30.
- Gaiani, C.; Mullet, M.; Arab-Tehrany, E.; Jacquot, M.; Perroud, C.; Renard, A.; Scher, J. Milk proteins differentiation and competitive adsorption during spray-drying. Food Hydrocolloids 2011, 25(5), 983–990.
- 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. Colloids and Surfaces B: Biointerfaces 2006, 49(1), 71–78.
- Murrieta-Pazos, I.; Gaiani, C.; Galet, L.; Calvet, R.; Cuq, B.; Scher, J. Food powders: Surface and form characterization revisited. Journal of Food Engineering 2012, 112, 1–21.
- Fyfe, K.; Kravchuk, O.; Nguyen, A.V.; Deeth, H.; Bhandari, B. Influence of dryer type on surface characteristics of milk powders. Drying Technology 2011, 29, 758–769.
- Petit, J.; Méjean, S.; Accart, P.; Galet, L.; Schuck, P.; Le Floch-Fouéré, C.; Delaplace, G.; Jeantet, R. A dimensional analysis approach for modelling the size of droplets formed by bi-fluid atomisation. Journal of Food Engineering 2015, 149, 237–247.
- Pisecky, J. Handbook of Milk Powder Manufacture; Niro A/S: Copenhagen, Denmark, 1997.
- Gaiani, C.; Boyanova, P.; Hussain, R.; Murrieta Pazos, I.; Karam, M.C.; Burgain, J.; Scher, J. Morphological descriptors and colour as a tool to better understand rehydration properties of dairy powders. International Dairy Journal 2011, 21(7), 462–469.
- Nikolova, Y.; Petit, J.; Sanders, C.; Gianfrancesco, A.; Scher, J.; Gaiani, C. Toward a better determination of dairy powders surface composition through XPS matrices development. Colloids and Surfaces B: Biointerfaces 2015, 125, 12–20.
- 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. Colloids and Surfaces B: Biointerfaces 2002, 26(3), 197–212.
- Mandato, S.; Rondet, E.; Delaplace, G.; Barkouti, A.; Galet, L.; Accart, P.; Ruiz, T.; Cuq, B. Liquids' atomization with two different nozzles: Modelling of the effects of some processing and formulation conditions by dimensional analysis. Powder Technology 2012, 224, 323–330.
- Fäldt, P.; Bergenstahl, B. The surface composition of spray-dried protein-lactose powders. Colloids and Surfaces A: Physicochemical and Engineering Aspects 1994, 90, 183–190.
- Nijdam, J.J.; Langrish, T.A.G. An investigation of milk powders produced by a laboratory-scale spray dryer. Drying Technology 2005, 23, 1043–1056.
- Shrestha, A.K.; Howes, T.; Adhikari, B.P.; Wood, B.J.; Bhandari, B.R. Effect of protein concentration on the surface composition, water sorption and glass transition temperature of spray-dried skim milk powders. Food Chemistry 2007, 104, 1436–1444.
- Wu, W.D.; Liu, W.; Gengenbach, T.; Woo, M.W.; Selomulya, C.; Chen, X.D.; Weeks, M. Towards spray drying of high solids dairy liquid: Effects of feed solid content on particle structure and functionality. Journal of Food Engineering 2014, 123, 130–135.
- Bosquillon, C.; Rouxhet, P.G.; Ahimou, F.; Simon, D.; Culot, C.; Préat, V.; Vanbever, R. Aerosolization properties, surface composition and physical state of spray-dried protein powders. Journal of Controlled Release 2004, 99(3), 357–367.
- Murrieta-Pazos, I.; Gaiani, C.; Galet, L.; Cuq, B.; Desobry, S.; Scher, J. Comparative study of particle structure evolution during water sorption: Skim and whole milk powders. Colloids and Surfaces B: Biointerfaces 2011, 87, 1–10.
- Murrieta-Pazos, I.; Gaiani, C.; Galet, L.; Scher, J. Composition gradient from surface to core in dairy powders: Agglomeration effect. Food Hydrocolloids 2012, 26, 149–158.