Competition of Dual Roles of Ionic Liquids during In Situ Transesterification of Wet Algae

Abstract: Ionic liquid (IL)-catalyzed in situ transesterification (IST) of wet algae is a promising strategy for energy-efficient biodiesel production owing to the dual roles of ILs as both solvents of the cell wall and catalysts of transesterification, while their variations and interactions within different water contents, which subsequently affect biodiesel production, are still out of knowledge. Accordingly, the variations of fatty acid methyl ester (FAME) yields and cellulose solubilities of [Bmim][HSO 4 ], [Bmim]-… Show more

“…This process requires breaking down the cell wall to react with the lipid present inside. To enhance the efficiency of this reaction and reduce associated costs, it is essential to conduct a meticulous study of the interaction between the appropriate ionic liquid and the cell components (Ding et al, 2022). However, these processes typically require high temperatures above 100 °C, which may cause the degradation of PUFAs.…”

Microalgal polyunsaturated fatty acids: Hotspots and production techniques

“…This process requires breaking down the cell wall to react with the lipid present inside. To enhance the efficiency of this reaction and reduce associated costs, it is essential to conduct a meticulous study of the interaction between the appropriate ionic liquid and the cell components (Ding et al, 2022). However, these processes typically require high temperatures above 100 °C, which may cause the degradation of PUFAs.…”

Microalgal polyunsaturated fatty acids: Hotspots and production techniques

MgAl-layered double hydroxides catalyzed hydrothermal liquefaction of tigernut for bio-oil production

Orthovanadate intercalated CuFe-LDO catalyzed hydrothermal liquefaction of microalgae for low nitrogen bio-oil production