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Authors
Advisor(s)
Abstract(s)
Powders of Dunaliella salina biomass were obtained by spray drying a cell concentrate under different drying regimes. A three-factor, two-level experimental design was employed to investigate the influence of inlet temperature, outlet temperature and feed solids on b-carotene recovery. The effect of microencapsulation in a polymer
matrix of maltodextrin and gum arabic was also studied. All powders were stored under specific conditions to assess the stability of the native b-carotene. There was a trend indicating that lower outlet temperature yielded higher carotenoid recoveries, b-carotene recovery varying between 57% and 91%. Microencapsulated biomass yielded 100% recoveries. All non-microencapsulated powders were unstable in terms of b-carotene content in the presence of natural light and oxygen showing 90% degradation over a 7-day period. The incorporation of a microencapsulating
agent had a significant increase in the storage stability. Results indicated a first-order degradation of the b-carotene
in microencapsulated powders with kinetic constants of 0.06 day-1 and 0.10 day-1. HPLC analysis showed no effect
of drying processes on isomer composition (9-cis-b-carotene and all-trans-b-carotene ratio). This behaviour was also observed during storage of the microencapsulated powders.
Description
Keywords
Dunaliella salina Microalgae B-carotene Spray-drying Cis/trans isomers
Citation
LEACH, G.; OLIVEIRA, G.; MORAIS, R. - Spray-drying of Dunaliella salina to produce a β -carotene rich powder - Journal of Industrial Microbiology & Biotechnology . ISSN 1367-5435. Vol. 20 (1998), p. 82–85
Publisher
Springer