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Article
2022

Homogenization improves foaming properties of insoluble pea proteins

Abstract (English)

Foams are essential in many food applications and require surface-active ingredients such as proteins for formation and stabilization. We investigated the influence of high-pressure homogenization on foaming properties of insoluble pea protein dispersions (5% w/w) at pH 3 and 5. Unhomogenized insoluble pea protein dispersions did not foam at either pH 3 or 5, as they consisted of large insoluble pea protein aggregates with limited surface activity. At pH 3, the homogenized pea protein dispersions generated foams due to higher protein solubility and surface activity through disruption of large protein aggregates into smaller particles. The foam stability decreased with increasing homogenization pressure and number of cycles due to a reduction in continuous phase viscosity. At pH 5, the insoluble pea proteins foamed when the homogenization resulted in formation of aggregates made of smaller protein entities, which was the case for homogenization ≥ 100 MPa and three cycles. In general, the foam capacity (amount of formed foam) was higher at pH 3 due to improved protein solubility and surface activity that facilitated incorporation of air, while the foam stability (resistance against foam collapse) was better at pH 5 because of the presence of larger protein aggregates that formed thicker and more viscous films around the air bubbles benefitting retention of gas bubbles. Overall, homogenization improved the foaming properties of insoluble pea proteins at pH 3 and 5.

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Journal of food science, 87 (2022), 10, 4622-4635. https://doi.org/10.1111/1750-3841.16320. ISSN: 1750-3841
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English

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660 Chemical engineerin

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Sustainable Development Goals

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@article{Moll2022, url = {https://hohpublica.uni-hohenheim.de/handle/123456789/16530}, doi = {10.1111/1750-3841.16320}, author = {Moll, Pascal and Salminen, Hanna and Griesshaber, Elena et al.}, title = {Homogenization improves foaming properties of insoluble pea proteins}, journal = {Journal of food science}, year = {2022}, volume = {87}, number = {10}, }
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