Edible films based on aqueous emulsions of low‐methoxyl pectin with recovered and purified sunflower waxes

Edible films based on aqueous emulsions of low‐methoxyl pectin with recovered and purified sunflower waxes

BACKGROUND Edible films were obtained from aqueous emulsions prepared with low‐methoxyl pectin at different concentrations (10, 20 and 30 g kg−1) and two sunflower wax samples recovered from two waste samples of filter cakes produced in the winterization process of sunflower oil. The two sunflower w...

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Bibliographic Details
Published in:Journal of the science of food and agriculture Vol. 100; no. 6; pp. 2675 - 2687
Main Authors: Chalapud, Mayra C, Baümler, Erica R, Carelli, Amalia A
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-04-2020
John Wiley and Sons, Limited
Subjects:
Adsorbed water
Cakes
Calcium
Calcium ions
Crosslinking
edible films
Elongation
Emulsions
Fatty acid composition
Fatty acids
Helianthus
high‐oleic sunflower wax
Hydrophobicity
Lipids
low‐methoxyl pectin
Mechanical properties
normal sunflower wax
Oils & fats
Pectin
Permeability
recovered sunflower waxes
Sunflower oil
Sunflowers
Tensile strength
Thermodynamic properties
Vapor resistance
Waste materials
Water resistance
Water vapor
Waxes
normal sunflower wax
edible films
high-oleic sunflower wax
recovered sunflower waxes
low-methoxyl pectin
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Summary:BACKGROUND Edible films were obtained from aqueous emulsions prepared with low‐methoxyl pectin at different concentrations (10, 20 and 30 g kg−1) and two sunflower wax samples recovered from two waste samples of filter cakes produced in the winterization process of sunflower oil. The two sunflower waxes samples recovered (from the normal hybrid, NSFW, and from the high‐oleic hybrid, HOSFW) were added in three proportions (0.1, 0.2 and 0.3 g g‐1 of pectin). Films were evaluated according to their structure, water resistance, water vapor permeability, mechanical properties and thermal behavior. RESULTS In general, good dispersion of the lipid material was observed in the cross‐sections of the film. Increase in the water resistance (lower swelling index and water adsorption) was associated with a greater pectin content crosslinked with Ca2+ and the hydrophobic nature of waxes. The reduction in water vapor transfer rates was influenced by the effect of the wax addition, their fatty acid composition and their good distribution on the film. More resistant, rigid and less flexible films were obtained with lower pectin content, finding an inverse relationship between tensile strength and elongation percentage values. CONCLUSION These results evidence a promising alternative in the development of innovative strategies to valorize sunflower waxes derived from waste material. © 2020 Society of Chemical Industry
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ISSN:0022-5142
1097-0010
DOI:10.1002/jsfa.10298