Novel bio-based solid acid catalyst derived from waste yeast residue for biodiesel production

Single cell oils or microbial lipids produced by oleaginous microorganisms are being utilized for various applications such as nutrition, fuels and valuable chemicals. However, after the extraction of value added products from microbial cells, the residue is generally burned or discarded. In the pre...

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Bibliographic Details
Published in:Renewable energy 2020-10, Vol.159, p.127-139
Main Authors: Deeba, Farha, Kumar, Bijender, Arora, Neha, Singh, Sauraj, Kumar, Anuj, Han, Sung Soo, Negi, Yuvraj S.
Format: Article
Language:English
Subjects:
Bio-based acid catalyst
Biodiesel
Sulfonation
Transesterification
Waste yeast residue
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Summary:Single cell oils or microbial lipids produced by oleaginous microorganisms are being utilized for various applications such as nutrition, fuels and valuable chemicals. However, after the extraction of value added products from microbial cells, the residue is generally burned or discarded. In the present study, synthesis of a novel bio-based solid acid catalyst from waste yeast residue has been carried out through sulfonation for biodiesel production. The obtained yeast residue based solid acid (YSA) catalyst showed higher fatty acid methyl ester (FAME) yield of 96.2 wt % for waste cooking oil at 60 °C and 94.8 wt % for yeast oil at 70 °C with 4 wt % catalyst concentration and 10:1 methanol to oil molar ratio. The FAME profile indicated the presence of elevated monounsaturated fatty acid content with improved oxidative stability and cold flow properties. The catalyst revealed high catalytic activity, high thermal stability and can be regenerated with its activity maintained up to four cycles. Furthermore, the biodiesel properties were abided with the international fuel standards. [Display omitted] •Bio-based solid acid catalyst was effectively produced from waste yeast residue.•The catalyst exhibits good activity for transesterification to produce biodiesel.•High fatty acid methyl ester yield was obtained with improved biodiesel quality.•The catalyst can be regenerated and reused up to four cycles with FAME yield >90%.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2020.05.029