Patrick Fustier scite author profile

Stability of beverage emulsion is measured by the rate at which the emulsion creams, flocculates or coalesces, and is generally dependent on rheology of water phase, difference in specific gravities of the two phases and droplet size/distribution of the emulsion. The effects of weighting agents (sucrose acetate isobutyrate and brominated vegetable oil) and xanthan gum on modified starch-based emulsions were evaluated in this study. Emulsion was formed by addition of 9% coconut oil, in the presence or absence of weighting agents, into the water phase containing modified starch at 10, 12 or 14% without or with the addition of 0.3% xanthan gum. Stabilities of emulsions were evaluated both in the concentrated form used for storage and dilute form used in beverages. The addition of xanthan gum into the water phase decreased the flow behavior index (n) from 0.88 down to 0.31 and increased elastic modulus (G′) over 20 times at elevated frequency (w = 50 rad/s) and elevated the stability of the emulsion. The xanthan gum-added emulsion had smaller particle size and demonstrated 14 and 5 times slower phase separation compared to the emulsions without or with the addition of weighting agents, respectively. When the elastic modulus was larger than the viscous modulus (G′ > G″), the emulsions demonstrated greater stability. In dilute beverage solutions, creaming was observed in the absence of xanthan gum.3 Corresponding

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Patrick Fustier

Microencapsulation for the improved delivery of bioactive compounds into foods

Effect of added oil and modified starch on rheological properties, droplet size distribution, opacity and stability of beverage cloud emulsions

Enhanced destruction of spoilage microorganisms in apple juice during continuous flow microwave heating

Polyphenolic compounds as functional ingredients in cheese

Effects of Added Weighting Agent and Xanthan Gum on Stability and Rheological Properties of Beverage Cloud Emulsions Formulated Using Modified Starch

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