Cold, gel-like whey protein emulsions by microfluidisation emulsification: Rheological properties and microstructures

Novel cold, gel-like whey protein concentrate (WPC) emulsions at various oil fractions (phi; 0.2-0.6) were formed through thermal pretreatment (at 70 degrees C for 30 min) and subsequent microfluidisation. The rheogical properties and microstructures, as well as emulsification mechanism of these emulsions were characterised. The rheological analyses indicated that the gel-like emulsions exhibited shear-thinning and predominantly elastic gel behaviours, and the apparent viscosities and the mechanical moduli of the emulsions remarkably and progressively increased with increasing the phi from 0.2 to 0.6. Confocal laser scanning microscopy analyses confirmed close relationships between rheological properties and gel network structures at various phi values. The formation of the gel-like network structure was closely related to the high emulsifying efficiency by microfluidisation. This kind of novel gel-like emulsion might exhibit great potential and be applicable in food formulations, e.g. as a kind of carrier for heat-labile and active ingredients. (C) 2011 Elsevier Ltd. All rights reserved.