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Potential use of flocculating oleaginous yeasts for bioconversion of industrial wastes into biodiesel feedstocks

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  • Louhasakul, Yasmi
  • Cheirsilp, Benjamas
  • Maneerat, Suppasil
  • Prasertsan, Poonsuk

Abstract

Factors affecting flocculating properties of two oleaginous yeasts, Candida tropicalis X37 and Yarrowia lipolytica TISTR 5151 were evaluated in order to simplify harvesting process and increase process productivity. Among these two yeasts, Y. lipolytica TISTR 5151 showed high flocculation efficiency (>95%) at acidic pH while C. tropicalis X37 gradually flocculated independently to pH. Both yeasts and their mixed culture grew well and accumulated high lipid content (>30%) in palm oil mill effluent added with crude glycerol at 1–2%. Interestingly, the mixed culture enhanced lipid productivity and COD removal possibly due to stabilization of pH and efficient organic carbon consumption. Y. lipolytica TISTR 5151 with appropriate inoculum size could also be used as bioflocculent for other yeasts. The fatty acid composition of yeast lipids and their prospect fuel properties indicate their potential use as biodiesel feedstocks.

Suggested Citation

  • Louhasakul, Yasmi & Cheirsilp, Benjamas & Maneerat, Suppasil & Prasertsan, Poonsuk, 2019. "Potential use of flocculating oleaginous yeasts for bioconversion of industrial wastes into biodiesel feedstocks," Renewable Energy, Elsevier, vol. 136(C), pages 1311-1319.
  • Handle: RePEc:eee:renene:v:136:y:2019:i:c:p:1311-1319
    DOI: 10.1016/j.renene.2018.10.002
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    1. Barros, Ana I. & Gonçalves, Ana L. & Simões, Manuel & Pires, José C.M., 2015. "Harvesting techniques applied to microalgae: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 41(C), pages 1489-1500.
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    2. Leesing, Ratanaporn & Siwina, Siraprapha & Ngernyen, Yuvarat & Fiala, Khanittha, 2022. "Innovative approach for co-production of single cell oil (SCO), novel carbon-based solid acid catalyst and SCO-based biodiesel from fallen Dipterocarpus alatus leaves," Renewable Energy, Elsevier, vol. 185(C), pages 47-60.
    3. Zhang, Linye & Xin, Zongwu & Liu, Zihan & Wei, Guangtao & Li, Zhongmin & Ou, Yuning, 2020. "Mechanistic study of the catalytic transfer hydrogenation of biodiesel catalyzed by Raney-Ni under microwave heating," Renewable Energy, Elsevier, vol. 147(P1), pages 695-704.
    4. Prakash Kumar Sarangi & Akhilesh Kumar Singh & Rajesh Kumar Srivastava & Vijai Kumar Gupta, 2023. "Recent Progress and Future Perspectives for Zero Agriculture Waste Technologies: Pineapple Waste as a Case Study," Sustainability, MDPI, vol. 15(4), pages 1-26, February.
    5. Monteiro, Rodolpho R.C. & Arana-Peña, Sara & da Rocha, Thays N. & Miranda, Letícia P. & Berenguer-Murcia, Ángel & Tardioli, Paulo W. & dos Santos, José C.S. & Fernandez-Lafuente, Roberto, 2021. "Liquid lipase preparations designed for industrial production of biodiesel. Is it really an optimal solution?," Renewable Energy, Elsevier, vol. 164(C), pages 1566-1587.
    6. Sundaramahalingam, M.A. & Sivashanmugam, P., 2023. "Concomitant strategy of wastewater treatment and biodiesel production using innate yeast cell (Rhodotorula mucilaginosa) from food industry sewerage and its energy system analysis," Renewable Energy, Elsevier, vol. 208(C), pages 52-62.
    7. Sotiris I. Patsios & Anna Dedousi & Evangelia Ν. Sossidou & Antonios Zdragas, 2020. "Sustainable Animal Feed Protein through the Cultivation of YARROWIA Lipolytica on Agro-Industrial Wastes and by-Products," Sustainability, MDPI, vol. 12(4), pages 1-23, February.

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