Influence of particle size and ionic strength on the freeze-thaw stability of emulsions stabilized by whey protein isolate

The influence of particle size and ionic strength on the freeze-thaw (FT) stability of emulsions stabilized by whey protein isolate (WPI) was investigated in this study. The destabilization of emulsions during the FT process could be suppressed in a way by decreasing the particle size of the initial...

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Published in:Food science and human wellness 2022-07, Vol.11 (4), p.922-932
Main Authors: Lai, Hao, Zhan, Fuchao, Wei, Yujie, Zongo, Abel W.S., Jiang, Sha, Sui, Haomin, Li, Bin, Li, Jing
Format: Article
Language:English
Subjects:
emulsifying
Emulsion
emulsions
flocculation
food science
freeze-thaw cycles
Freeze-thaw stability
humans
ice
Ionic strength
oils
Particle size
temperature
Whey protein isolate
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Summary:The influence of particle size and ionic strength on the freeze-thaw (FT) stability of emulsions stabilized by whey protein isolate (WPI) was investigated in this study. The destabilization of emulsions during the FT process could be suppressed in a way by decreasing the particle size of the initial emulsions, which was the result of retarding the coalescence between oil droplets. To further improve the FT stability of emulsions, different amounts of NaCl were added before emulsification. The emulsions with the ionic strength at 30–50mmol/L exhibited good FT stability. Notably, the ionic strength in this range would not lower the freezing point of emulsions below the freezing temperature used in this study. Salt addition could improve the structural properties of proteins, which was available to strengthen the rigidity and thickness of interfacial layers, sequentially building up the resistance that the destruction of ice crystals to emulsions. Moreover, stronger flocculation between emulsion droplets could promote the formation of a gel-like network structure dominated by elasticity in the emulsion system, which might effectively inhibit the movement of droplets, and improve the FT stability of emulsions eventually. The result was of great significance for the preparation of emulsion-based foods with improved FT stability. [Display omitted] •Union of particle size and salt enhanced the freeze-thaw (FT) stability of emulsions.•FT destabilization was retarded by decreasing the particle size of initial emulsions.•Emulsions exhibited a good FT stability at lower ionic strength (30~50mM NaCl).
ISSN:2213-4530
2213-4530
DOI:10.1016/j.fshw.2022.03.018