Effects of heat on physicochemical properties of whey protein-stabilised emulsions

“…As known from literature, the protein molecules usually change their conformation after adsorption and/or thermal treatment, and this leads to modifications in the properties of the adsorption layers [34,35,[112][113][114][115][116][117][118]. In the current section, we present experimental results for the effects of storage time and heating on emulsion coalescence stability.…”

“…The protein adsorption also increases in a step-wise manner with the heating temperature: in emulsions heated at T = 78°C, Γ is practically the same as in the non-heated emulsions (2.8 mg/m 2 ), whereas it increases up to 3.8 mg/m 2 after heating at T = 85 and 90°C (similar increase in Γ after heating was reported in Refs. [114,121]). Thus, the increased emulsion stability after heating at T = 85°C is at least partially due to increased steric repulsion between the protein adsorption layers.…”

Coalescence stability of emulsions containing globular milk proteins

“…As known from literature, the protein molecules usually change their conformation after adsorption and/or thermal treatment, and this leads to modifications in the properties of the adsorption layers [34,35,[112][113][114][115][116][117][118]. In the current section, we present experimental results for the effects of storage time and heating on emulsion coalescence stability.…”

“…The protein adsorption also increases in a step-wise manner with the heating temperature: in emulsions heated at T = 78°C, Γ is practically the same as in the non-heated emulsions (2.8 mg/m 2 ), whereas it increases up to 3.8 mg/m 2 after heating at T = 85 and 90°C (similar increase in Γ after heating was reported in Refs. [114,121]). Thus, the increased emulsion stability after heating at T = 85°C is at least partially due to increased steric repulsion between the protein adsorption layers.…”

Coalescence stability of emulsions containing globular milk proteins

“…Tangsuphoom and Coupland (2005) suggested that both flocculation and possibly a slight degree of coalescence accounted for the increase in particle size in heated coconut emulsions. Protein stabilized emulsions have been shown to flocculate after heating as the protein-protein associations formed bind the droplets together in a network (Siliwinski, Roubos, Zoet, van Boeckel, & Wouters, 2003). Heat-denatured whey proteins form complexes with casein micelles because of increasing hydrophobicity and at higher temperatures this complex formation is stronger than at lower temperatures (Erdem & Yuksel, 2005).…”

The use of sedimentation field-flow fractionation in the size characterization of bovine milk fat globules as affected by heat treatment

“…Solid-like flocculated emulsion gels may be generated from liquid-like whey protein emulsions by thermal processing [134][135][136] and acidification [137][138][139]. The extent of heat-induced flocculation is dependent on various factors, such as the treatment time/temperature and the unadsorbed protein concentration [140,141]. The flocs are held together by a combination of hydrophobic interactions and covalent disulfide bonds between proteins adsorbed to different droplets [142].…”

Flocculation of protein-stabilized oil-in-water emulsions