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Valorization of waste-cooking oil into sophorolipids and application of their methyl hydroxyl branched fatty acid derivatives to produce engineering bioplastics

•Bio-chemical hybrid was used to produce methyl hydroxy branched fatty acids (MHBFA).•MHBFAs were produced with waste-cooking oil (WCO) and Starmerrella bombicola.•Sophorolipids concentration produced with WCO is the greatest to date (315.6 g/L).•The MHBFAs were utilized as co-monomers for preparing...

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Published in:Waste management (Elmsford) 2021-04, Vol.124, p.195-202
Main Authors: Kim, Jeong-Hun, Oh, Yu-Ri, Hwang, Juyoung, Kang, Jaeryeon, Kim, Hyeri, Jang, Young-Ah, Lee, Seung-Soo, Hwang, Sung Yeon, Park, Jeyoung, Eom, Gyeong Tae
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Language:English
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Summary:•Bio-chemical hybrid was used to produce methyl hydroxy branched fatty acids (MHBFA).•MHBFAs were produced with waste-cooking oil (WCO) and Starmerrella bombicola.•Sophorolipids concentration produced with WCO is the greatest to date (315.6 g/L).•The MHBFAs were utilized as co-monomers for preparing bioplastics.•Even the 1 mol% incorporation in polymer chains improved mechanical properties. Waste-cooking oil (WCO) is defined as vegetable oil that has been used to fry food at high temperatures. The annual global generation of WCO is 41–67 million tons. Without proper treatment, most WCO is abandoned in sinks and the solid residue of WCO is disposed of in landfills, resulting in serious environmental problems. Recycling and valorizing WCO have received considerable attention to reduce its negative impact on ecosystems. To convert WCO into a high value-added compound, we aimed to produce sophorolipids (SLs) that are industrially important biosurfactants, using WCO as a hydrophobic substrate by the fed-batch fermentation of Starmerella bombicola. The SLs concentration was increased ~3.7-fold compared with flask culture (315.6 vs. 84.8 g/L), which is the highest value ever generated from WCO. To expand the applications of SLs, we prepared methyl hydroxy branched fatty acids (MHBFAs) from SLs, which are important chemicals for various industries yet difficult to produce by chemical methods, using a bio-chemical hybrid approach. We synthesized bio-based plastics using MHBFAs as co-monomers. Compared with the control polymer without MHBFAs, even the incorporation of 1 mol% into polymer chains improved mechanical properties (such as ultimate tensile strength, 1.1-fold increase; toughness, 1.3-fold increase). To the best of our knowledge, this is the first attempt to apply MHBFAs from SLs derived from WCO to building blocks of plastics. Thus, we extended the valorization areas of WCO to one of the world’s largest industries.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2021.02.003