Chemistry

Biography

Biography: Apichat Boontawan

Abstract

A third-generation biofuel production was investigated in a 500-L bioreactor using an oleaginous yeast Rhodosporidium paludigenum. This strain contains high triglyceride content, and the main fatty acids are C14, C16 and C18 which are very similar to fatty acids found in vegetable oils. The yeast were cultured, harvested, and extracted the oil by using solvent extraction. After fermentation, a combined cross-flow microfiltration (MF) process of concentration and diafiltration mode was investigated for the recovery of yeast cell. The membrane fouling mechanism was investigated using cleaning method in order to evaluate the major factors causing in the flux decline. The flux of pure water was obtained at 80.05 L/m².h corresponding to the membrane resistance of 3.1´10¹² m^-1. For MF of the whole broth, the flux sharply decreased and reached its plateau at around 10 L/m².h until the end of experiment. Pure water was then added during diafiltration mode for the removal of all impurities. After cell harvesting, a chemical cleaning was applied in order to obtain the cake and adsorption resistances. After cleaning with pure water, the regained flux was obtained at 69.50 L/m².h, and the regained flux after 1 wt% NaOH washing was 80.01 L/m².h. As a result, the percentage of absorption resistance was 13.24%, and the percentage of cake was 86.76%, respectively. The yeast was dried by a spray dryer prior to extract the oil using hexane as organic solvent. After solvent removal, the lipid can be used as an appropriate raw material for biofuels production.