| Literature DB >> 27019125 |
Jerome Amoah1, Shih-Hsin Ho2, Shinji Hama3, Ayumi Yoshida3, Akihito Nakanishi2, Tomohisa Hasunuma2, Chiaki Ogino1, Akihiko Kondo4.
Abstract
The presence of phospholipid has been a challenge in liquid enzymatic biodiesel production. Among six lipases that were screened, lipase AY had the highest hydrolysis activity and a competitive transesterification activity. However, it yielded only 21.1% FAME from oil containing phospholipids. By replacing portions of these lipases with a more robust bioFAME lipase, CalT, the combination of lipase AY-CalT gave the highest FAME yield with the least amounts of free fatty acids and partial glycerides. A higher methanol addition rate reduced FAME yields for lipase DF-CalT and A10D-CalT combinations while that of lipase AY-CalT combination improved. Optimizing the methanol addition rate for lipase AY-CalT resulted in a FAME yield of 88.1% at 2h and more than 95% at 6h. This effective use of lipases could be applied for the rapid and economic conversion of unrefined oils to biodiesel.Entities:
Keywords: Biodiesel; Enzyme biocatalysis; Mixed lipase; Phospholipid; Transesterification
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Year: 2016 PMID: 27019125 DOI: 10.1016/j.biortech.2016.03.062
Source DB: PubMed Journal: Bioresour Technol ISSN: 0960-8524 Impact factor: 9.642