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  • Chinese Scientists Develop Ultra-high Cell Density Heterotrophic Cultivation Technology of Microalgae
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    High-cell-density fermentation of microalgae can be coupled with photoautotrophic culture mode to produce a variety of algal bio-products including oils. However, fermentation, a costly and energy-intensive process, will become economically feasible only if ultra-high cell density can be achieved.

    Recently, in a study published in Biotechnology and Bioengineering, researchers from Institute of Hydrobiology (IHB) of Chinese Academy of Sciences, Biotechnology Investment Co. under State Development & Investment Corp.,Ltd. (SDIC), and Jinan University invented an ultra-high cell density heterotrophic cultivation technology of the unicellular green microalga Scenedesmus acuminatus.

    By optimizing cultural conditions and employing a sophisticated substrate feed control strategy involving stepwise constant feeding and simultaneously maintaining a low-concentration glucose, researchers obtained an ultra-high-cell-density of 286 and 283.5 g L-1 in 7.5-L bench-scale and 1,000 L pilot-scale fermenters, respectively.

    They also found that heterotrophically-grown S. acuminatus cells are more productive in terms of both biomass and lipid accumulation when they are inoculated in outdoor pilot-scale photobioreactors for lipid production as compared to the cells originally grown under photoautotrophic conditions.

    Further techno-economic analysis based on the pilot-scale data indicated the cost of heterotrophic culture of microalgae for biomass production is comparable with that of the open pond system and much lower than that of tubular PBR, if the biomass yield was higher than 200 g L-1.

    This study demonstrated the economic viability of heterotrophic cultivation on large-scale microalgal inocula production, showing great commercial application potential of this ultra-high cell density cultivation technology in microalgae resources development.

    This work was supported by grants from State Development & Investment Corporation (SDIC) of China, Natural Science Foundation of Hubei Province and Chinese Academy of Sciences.

     

    Figure Scale-up of heterotrophic culture of S. acuminatus in 1, 000 L fermentor with the optimal cultural conditions. a: Time courses of DO and stirring speed. b: Change of biomass and glucose concentrations with time (Image by IHB) 

    Contact:
    Prof. HU Qiang
    Center for Microalgal Biotechnology & Biofuels
    Institute of Hydrobiology, Chinese Academy of Sciences
    E-mail: huqiang@ihb.ac.cn
     

  • Ultrahigh‐cell‐density heterotrophic cultivation of the unicellular green microalga Scenedesmus acuminatus and application of the cells to photoautotrophic culture enhance biomass and lipid production
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