Chemo-enzymatic saccharification and bioethanol fermentation of lipid-extracted residual biomass of the microalga, Dunaliella tertiolecta
Chemo-enzymatic saccharification and bioethanol fermentation of the residual biomass of
Dunaliella tertiolecta after lipid extraction for biodiesel production were investigated. HCl-
catalyzed saccharification of the residual biomass at 121° C for 15min produced reducing
sugars with a yield of 29.5%(w/w) based on the residual biomass dry weight. Various
enzymes were evaluated for their ability to saccharify the residual biomass. Enzymatic
saccharification using AMG 300L produced 21.0 mg/mL of reducing sugar with a yield of …
Dunaliella tertiolecta after lipid extraction for biodiesel production were investigated. HCl-
catalyzed saccharification of the residual biomass at 121° C for 15min produced reducing
sugars with a yield of 29.5%(w/w) based on the residual biomass dry weight. Various
enzymes were evaluated for their ability to saccharify the residual biomass. Enzymatic
saccharification using AMG 300L produced 21.0 mg/mL of reducing sugar with a yield of …
Chemo-enzymatic saccharification and bioethanol fermentation of lipid-extracted residual biomass of the microalga, Dunaliella tertiolecta.
LOK Lee OkKyung, KAL Kim ALeum… - 2013 - cabidigitallibrary.org
Chemo-enzymatic saccharification and bioethanol fermentation of the residual biomass of
Dunaliella tertiolecta after lipid extraction for biodiesel production were investigated. HCl-
catalyzed saccharification of the residual biomass at 121° C for 15 min produced reducing
sugars with a yield of 29.5%(w/w) based on the residual biomass dry weight. Various
enzymes were evaluated for their ability to saccharify the residual biomass. Enzymatic
saccharification using AMG 300L produced 21.0 mg/mL of reducing sugar with a yield of …
Dunaliella tertiolecta after lipid extraction for biodiesel production were investigated. HCl-
catalyzed saccharification of the residual biomass at 121° C for 15 min produced reducing
sugars with a yield of 29.5%(w/w) based on the residual biomass dry weight. Various
enzymes were evaluated for their ability to saccharify the residual biomass. Enzymatic
saccharification using AMG 300L produced 21.0 mg/mL of reducing sugar with a yield of …