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Microbial oil production from thermophile cyanobacteria for biodiesel production

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  • Karatay, Sevgi Ertuğrul
  • Dönmez, Gönül

Abstract

Compared to lipid extraction from algae, little work has been performed for cyanobacteria. In this article it is aimed to show high lipid accumulation potential of Synechococcus sp., Cyanobacterium aponinum and Phormidium sp. cells in BG-11 medium. Four different pH values (6–9) and NaNO3 (0.25, 0.5, 1.0, 1.5g/L) concentrations were examined at different incubation days to discover the highest lipid accumulation. The maximum lipid content could be achieved in the medium containing 0.25g/L NaNO3 at pH 7 for Synechococcus sp., pH 8 for C. aponinum and pH 9 for Phormidium sp. after 15days. The maximum lipid contents and C16 and C18 methyl ester yields were measured as 42.8% and 46.9% for Synechococcus sp., 45.0% and 67.7% for C. aponinum, 38.2% and 90.6% for Phormidium sp. The saturated compounds were 74.5%, 77.9%, 84.7% for Synechococcus sp., C. aponinum and Phormidium sp., respectively. These crude lipids could be promising feedstock for biodiesel production.

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  • Karatay, Sevgi Ertuğrul & Dönmez, Gönül, 2011. "Microbial oil production from thermophile cyanobacteria for biodiesel production," Applied Energy, Elsevier, vol. 88(11), pages 3632-3635.
    • Handle: RePEc:eee:appene:v:88:y:2011:i:11:p:3632-3635
    DOI: 10.1016/j.apenergy.2011.04.010
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    1. Wu, Hong & Li, Yuanyuan & Chen, Lei & Zong, Minhua, 2011. "Production of microbial oil with high oleic acid content by Trichosporon capitatum," Applied Energy, Elsevier, vol. 88(1), pages 138-142, January.
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    3. Meher, L.C. & Vidya Sagar, D. & Naik, S.N., 2006. "Technical aspects of biodiesel production by transesterification--a review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 10(3), pages 248-268, June.
    4. Meng, Xin & Yang, Jianming & Xu, Xin & Zhang, Lei & Nie, Qingjuan & Xian, Mo, 2009. "Biodiesel production from oleaginous microorganisms," Renewable Energy, Elsevier, vol. 34(1), pages 1-5.
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    3. Nicholas S. Kruyer & Matthew J. Realff & Wenting Sun & Caroline L. Genzale & Pamela Peralta-Yahya, 2021. "Designing the bioproduction of Martian rocket propellant via a biotechnology-enabled in situ resource utilization strategy," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    4. Shimaa M. El Shafay & Ahmed Gaber & Walaa F. Alsanie & Mostafa E. Elshobary, 2021. "Influence of Nutrient Manipulation on Growth and Biochemical Constituent in Anabaena variabilis and Nostoc muscorum to Enhance Biodiesel Production," Sustainability, MDPI, vol. 13(16), pages 1-17, August.
    5. Wang, Yi-Tong & Fang, Zhen & Yang, Xing-Xia, 2017. "Biodiesel production from high acid value oils with a highly active and stable bifunctional magnetic acid," Applied Energy, Elsevier, vol. 204(C), pages 702-714.
    6. Wu, Chao & Liu, Xian-Wei & Li, Wen-Wei & Sheng, Guo-Ping & Zang, Guo-Long & Cheng, Yuan-Yuan & Shen, Nan & Yang, Yi-Pei & Yu, Han-Qing, 2012. "A white-rot fungus is used as a biocathode to improve electricity production of a microbial fuel cell," Applied Energy, Elsevier, vol. 98(C), pages 594-596.
    7. Hoseini, S.S. & Najafi, G. & Ghobadian, B. & Mamat, R. & Ebadi, M.T. & Yusaf, Talal, 2019. "Characterization of biodiesel production (ultrasonic-assisted) from evening-primroses (Oenothera lamarckiana) as novel feedstock and its effect on CI engine parameters," Renewable Energy, Elsevier, vol. 130(C), pages 50-60.
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