TY - JOUR
T1 - Lipid Production of Heterotrophic Chlorella sp. from Hydrolysate Mixtures of Lipid-Extracted Microalgal Biomass Residues and Molasses
AU - Zheng, Hongli
AU - Ma, Xiaochen
AU - Gao, Zhen
AU - Wan, Yiqin
AU - Min, Min
AU - Zhou, Wenguang
AU - Li, Yun
AU - Liu, Yuhuan
AU - Huang, He
AU - Chen, Paul
AU - Ruan, Roger
N1 - Publisher Copyright:
© 2015, Springer Science+Business Media New York.
PY - 2015/10/30
Y1 - 2015/10/30
N2 - This study investigated the feasibility of lipid production of Chlorella sp. from waste materials. Lipid-extracted microalgal biomass residues (LMBRs) and molasses were hydrolyzed, and their hydrolysates were analyzed. Five different hydrolysate mixture ratios (w/w) of LMBRs/molasses (1/0, 1/1, 1/4, 1/9, and 0/1) were used to cultivate Chlorella sp. The results showed that carbohydrate and protein were the two main compounds in the LMBRs, and carbohydrate was the main compound in the molasses. The highest biomass concentration of 5.58 g/L, Ybiomass/sugars of 0.59 g/g, lipid productivity of 335 mg/L/day, and Ylipids/sugars of 0.25 g/g were obtained at the hydrolysate mixture ratio of LMBRs/molasses of 1/4. High C/N ratio promoted the conversion of sugars into lipids. The lipids extracted from Chlorella sp. shared similar lipid profile of soybean oil and is therefore a potential viable biodiesel feedstock. These results showed that Chlorella sp. can utilize mixed sugars and amino acids from LMBRs and molasses to accumulate lipids efficiently, thus reducing the cost of microalgal biodiesel production and improving its economic viability.
AB - This study investigated the feasibility of lipid production of Chlorella sp. from waste materials. Lipid-extracted microalgal biomass residues (LMBRs) and molasses were hydrolyzed, and their hydrolysates were analyzed. Five different hydrolysate mixture ratios (w/w) of LMBRs/molasses (1/0, 1/1, 1/4, 1/9, and 0/1) were used to cultivate Chlorella sp. The results showed that carbohydrate and protein were the two main compounds in the LMBRs, and carbohydrate was the main compound in the molasses. The highest biomass concentration of 5.58 g/L, Ybiomass/sugars of 0.59 g/g, lipid productivity of 335 mg/L/day, and Ylipids/sugars of 0.25 g/g were obtained at the hydrolysate mixture ratio of LMBRs/molasses of 1/4. High C/N ratio promoted the conversion of sugars into lipids. The lipids extracted from Chlorella sp. shared similar lipid profile of soybean oil and is therefore a potential viable biodiesel feedstock. These results showed that Chlorella sp. can utilize mixed sugars and amino acids from LMBRs and molasses to accumulate lipids efficiently, thus reducing the cost of microalgal biodiesel production and improving its economic viability.
KW - Biodiesel
KW - Heterotrophy
KW - Lipid-extracted microalgal biomass residues
KW - Microalga
KW - Molasses
UR - http://www.scopus.com/inward/record.url?scp=84942549567&partnerID=8YFLogxK
U2 - 10.1007/s12010-015-1770-4
DO - 10.1007/s12010-015-1770-4
M3 - 文章
C2 - 26234438
AN - SCOPUS:84942549567
SN - 0273-2289
VL - 177
SP - 662
EP - 674
JO - Applied Biochemistry and Biotechnology
JF - Applied Biochemistry and Biotechnology
IS - 3
ER -