Dewatering and Drying Methods for Microalgae

Microalgae can efficiently fix carbon dioxide through their phototropic metabolism, and have been recognized as a promising bioresource for animal feed, health food, fuel, cosmetic, and pharmaceutical products. However, since microalgae in cultivated medium have a low biomass concentration (0.1–1% w...

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Bibliographic Details
Published in:Drying technology 2015-03, Vol.33 (4), p.443-454
Main Authors: Chen, Ching-Lung, Chang, Jo-Shu, Lee, Duu-Jong
Format: Article
Language:English
Subjects:
Algae
Biomass
capital
carbon dioxide
Cosmetics
cost effectiveness
Dewatering
drugs
Drying
energy
Energy consumption
Evaporation
feeds
fuels
Harvesting
health foods
Industrial engineering
Manufacturing engineering
metabolism
Microalgae
process design
Product quality
Production costs
Production methods
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Summary:Microalgae can efficiently fix carbon dioxide through their phototropic metabolism, and have been recognized as a promising bioresource for animal feed, health food, fuel, cosmetic, and pharmaceutical products. However, since microalgae in cultivated medium have a low biomass concentration (0.1–1% w/w), both harvesting and concentration of microalgal biomass are often required prior to the production of commercial products. Efficient and cost-effective dewatering and drying methods for microalgae heavily affect the overall energy consumption and production cost of microalgal products. This review describes the characteristics of commonly used dewatering and drying technologies, and critically evaluates the feasibility for their use to treat microalgal biomass. No single dewatering or drying method can satisfactorily handle all types of microalgae. The suitability of each method depends on the properties of the microalgae suspension, the required process design, the quality of the end product, and the related capital and production costs.
ISSN:1532-2300
0737-3937
1532-2300
DOI:10.1080/07373937.2014.997881