Chemical Engineering Journal, Vol.264, 735-743, 2015
Bioconversion of volatile fatty acids from macroalgae fermentation into microbial lipids by oleaginous yeast
Marine biomass is a potential carbon resource for the production of bin-based energy and chemicals. Microbial lipids are competitive in producing biodiesel. In this study, Laminaria japonica (Saccharina japonica) was chosen as a model marine biomass producer due to its fast rate and well-established cultivation technology. A mixed culture system was established by inoculating it with sludge from an anaerobic digester, and then operated in a continuous mode for over 1000 days by feeding it a non-sterile suspension of dried L. japonica in tap water without additional nutrients. The average yield and productivity of total organic acids during the stationary phase were as high as 0.47 g/g COD and 2.45 g/L/day at pH 7 with 84.08% of acetate in total organic acids. The volatile fatty acids (VFAs) from the continuously-stirred tank reactor (CSTR) were used by oleaginous yeast (Cryptococcus curvatus) to produce lipids in a repeated batch system. The highest lipid content was 61%. The composition of the fatty acids was quite similar to that of vegetable oils. This system has potential application to biodiesel production. (C) 2014 Elsevier B.V. All rights reserved.
Keywords:Laminaria japonica;Cryptococcus curvatus;CSTR;Repeated batch;Fatty acid methyl esters (FAMEs);Biodiesel