Stability of Sub-Micron Oil-in-Water Emulsions Produced by Ultra High Pressure Homogenization and Sodium Caseinate as Emulsifier
Hebishy, E.
Buffa, M.
Guamis, B.
Trujillo, A.J.
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How to Cite

Hebishy E., Buffa M., Guamis B., Trujillo A., 2013, Stability of Sub-Micron Oil-in-Water Emulsions Produced by Ultra High Pressure Homogenization and Sodium Caseinate as Emulsifier, Chemical Engineering Transactions, 32, 1813-1818.
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Abstract

Ultra high pressure homogenization (UHPH) is a non-thermal technology capable of producing emulsions, inducing microbial and enzymatic inactivation and confering new functional characteristics, due to changes in the structures of produced foods.
Emulsions containing 1.5 % of sodium caseinate (SC) and 20 % oil (15 % sunflower + 5 % olive) were obtained by colloidal mill (CM, 5000 rpm for 5 min) and by ultra-high pressure homogenization (UHPH, 50-300 MPa). Emulsions were characterized for their physical properties including rheological behaviour, surface protein concentration, visual stability to creaming and oxidative stability under light (2000 lux/m2).
The particle size of the CM emulsions was significantly reduced (P < 0.05) by UHPH treatments, although the differences between UHPH treatments were scarce. All CM emulsions were visually totally separated in 2 h; however, no visual separation was observed in all UHPH emulsions even after 20 days of cold storage. Examination of the rheological properties of emulsions in all cases exhibited Newtonian behaviour (n ˜ 1), showing higher viscosity in UHPH emulsions than CM emulsions, although these differences were only significant in emulsions treated at 50 MPa. The oxidative stability analyses revealed a significant increase (P < 0.05) in both primary and secondary oxidation products in CM emulsions as compared to UHPH emulsions.
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