Indexed by:期刊论文
Date of Publication:2018-11-01
Journal:ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS
Included Journals:SCIE
Volume:35
Page Number:319-324
ISSN No.:2211-9264
Key Words:Seawater desalination concentrate; Floating photobioreactor; Dunaliella salina; beta-Carotene; Carbonate precipitate pretreatment
Abstract:Using seawater desalination concentrate to produce microalgae biomass enriched with high value products is a promising way to improve the profitability of desalination industry, but this is seriously limited by enormous land requirement for microalgae farming, as well as high cost of microalgae cultivation. In this study, low cost floating photobioreactor was adopted to cultivate Dunaliella salina to produce beta-carotene, using seawater desalination concentrate as culture medium. With carbonate precipitate pretreatment, 97.6% Ca2+ and 60.3% Mg2+ were removed from seawater desalination concentrate. Then, this carbonate enriched medium was bubbled with CO2, to generate bicarbonate, and this increased total inorganic carbon to 0.254 mol(-1). Cultivation with this medium resulted in biomass production without difference from optimized concentrated artificial seawater medium. Pilot scale cultivation of D. salina with floating PBR on ocean showed that 300 g algal biomass containing 14.3 g beta-carotene can be produced from 1 m(3) desalination concentrate. This amount of beta-carotene enriched biomass has a value more than $ 40, and would significantly improve the profitability of desalination industry.
Associate Professor
Supervisor of Master's Candidates
Gender:Female
Alma Mater:同济大学
Degree:Doctoral Degree
School/Department:生物工程学院
Discipline:Biological Engineering and Technology. Microbiology
Business Address:生命学院362室
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