Foaming Properties of Chlorella sorokiniana Microalgal Biomass.

Georgiou, Despoina; Charisis, Aggelos; Theocharidou, Athina; Ritzoulis, Christos; Papapanagiotou, Georgia; Samara, Christina; Chatzidoukas, Christos; Kalogianni, Eleni P.

Chlorella sorokiniana is a well-studied microalga with significant nutritional potential due to its health-promoting nutrients. C. sorokiniana is rich in proteins (~50%), lipids (~14%), vitamins, and other bioactive compounds, making it an attractive ingredient for the food industry. Other properties of C. sorokiniana, such as its foaming properties, have not been extensively investigated. The present work examines the foaming properties of C. sorokiniana biomass and of its fractions, namely the foaming properties of the whole-cell biomass, the disrupted-cell biomass, the water-soluble protein-rich extract, and the disrupted-cell biomass residue after oil extraction. The water/air interfacial tension, zeta potential, foaming capacity, foam stability, and foam morphology of C. sorokiniana biomass and its fractions were determined. Furthermore, the effect of the pH on the foaming properties of the water-soluble protein-rich extract was also investigated. The results show that the examined fractions decrease the water-air interfacial tension and form foams. The type of biomass fraction affects strongly the foam characteristics and foam stability. Furthermore, the stability and characteristics of the foam are significantly affected by pH. Overall, the water-soluble protein-rich extract at pH 7 presented the best foam stability, as the foam remained stable for more than 24 h and had a narrow bubble size distribution. The obtained results suggest that fractionated microalgae biomass could be used as an effective foaming agent in different commercial applications.

CHLORELLA sorokiniana; INTERFACIAL tension; SURFACE active agents; PH effect; COMMERCIAL agents; FRACTIONS

Colloids & Interfaces, 2024, Vol 8, Issue 6, p66

2504-5377

Academic Journal

10.3390/colloids8060066