YanLing Yu

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Name: 于艳玲; YanLing Yu

Organization: Harbin Institute of Technology

Department:

Title: Lecturer

Chemicals
References

Combined effects of carbon, phosphorus and nitrogen on lipid accumulation of Chlorella vulgaris in mixotrophic culture

Co-reporter:Chao Li;Dawei Zhang;Jia Liu;Nanqi Ren;Yujie Feng

Journal of Chemical Technology and Biotechnology 2016 Volume 91( Issue 3) pp:680-684

Publication Date(Web):

DOI:10.1002/jctb.4623

Abstract

BACKGROUND

Microalgae biodiesel has attracted considerable attention, however, low lipid content has significantly restricted its development. Many research studies have demonstrated that nutrient deficiency is an important factor stimulating lipid accumulation in algal cells. This present study investigated the combined effects of nitrogen, phosphorus, and carbon on algal lipid accumulation by Chlorella vulgaris in mixotrophic culture.

RESULTS

Phosphorus at 0.2 g L⁻¹ concentration inhibited Chlorella vulgaris growth but did not influence lipid accumulation. High concentration of NaNO₃ (3.75 g L⁻¹) inhibited both algal growth and lipid accumulation. Nitrogen sufficiency can stimulate lipid accumulation. Glucose limitation restricted both biomass production and lipid accumulation, resulting in lipid content decrease even under nitrogen sufficiency. CO₂ was unable to satisfy the carbon demand for lipid accumulation when glucose was exhausted in mixotrophic culture. The initial C:N ratio of culture medium played an important role in algal lipid accumulation. Lipid content was maintained at 7.6–11.3% when the initial C:N of culture was less than 50, while it increased significantly to 23.9% with initial C:N of culture increased to 92.7.

CONCLUSION

Superior lipid accumulation requires limiting nitrogen concentration in the medium solution. High initial C:N ratio greater than 86 was found to be beneficial for algal lipid accumulation. © 2014 Society of Chemical Industry

Factors affecting microalgae harvesting efficiencies using electrocoagulation-flotation for lipid extraction

Co-reporter:Dawei Zhang, Yanling Yu, Chao Li, Chunyan Chai, Lili Liu, Jia Liu and Yujie Feng

RSC Advances 2015 vol. 5(Issue 8) pp:5795-5800

Publication Date(Web):20 Nov 2014

DOI:10.1039/C4RA09983D

Microalgae harvesting is a relatively costly process in microalgae biodiesel production. In this study, electrocoagulation-flotation (ECF) was employed to harvest microalgae (Chlorella vulgaris). Higher current density achieved higher collection efficiency, but also resulted in higher energy consumption and increased levels of dissolved aluminium. At the same ratio of current density to initial cell density, collection efficiency decreased from 99.0% of 0.24 g L−1 to 30.5% of 1.17 g L−1 when the electrolysis time was 20 min. For stirring and aeration, the highest collection efficiency was 98.4%, obtained by stirring at 50 rpm for 20 min. This efficiency was nearly equal to the highest collection efficiency for aeration: 98.3% for 50 mL min−1 aeration at 30 min. Acidic and neutral culture conditions were beneficial due to the positively charged aluminium species in the culture; higher collection efficiencies (more than 98%) occurred with pH levels of 5–7 after 20 min. The lowest energy consumption of 0.61 kW h kg−1 was achieved at pH 5. In this research, ECF exhibited higher collection efficiency (99.4%) as compared to the 93.5% collection efficiency of chemical flocculation (Al2(SO4)3).