Microwave-Assisted Extraction of Fatty Acids from Cultured and Commercial Phytoplankton Species

Abstract: (1) Background: The extraction of fatty acids from microalgae and cyanobacteria is mostly performed with organic solvents and laborious procedures. Microwave-assisted extraction (MAE) can be a more effective and environmentally friendly process than traditional extraction (TE), which uses a large volume of solvent and conduction heating. Freshwater phytoplankton inhabits diverse aquatic environments and is a promising source of fatty acids and green precursors in the synthesis of biofuel, including cyanobacter… Show more

“…MAE depends on the interaction of a dielectric polar substance (such as water) and a rapidly oscillating electric field created by microwaves (Esquivel-Hernández et al, 2017;Moretto et al, 2022). This electric field generates heat as a result of the friction created by the movement of the molecules within and between it.…”

Processes and biorefinery approach for enhanced algal bioproduct recovery in the form of lipid and UV protectant

“…MAE depends on the interaction of a dielectric polar substance (such as water) and a rapidly oscillating electric field created by microwaves (Esquivel-Hernández et al, 2017;Moretto et al, 2022). This electric field generates heat as a result of the friction created by the movement of the molecules within and between it.…”

Processes and biorefinery approach for enhanced algal bioproduct recovery in the form of lipid and UV protectant

Bioenergy Generation and Cogeneration from Algae-Based Biorefineries

Microwave-assisted extraction of lipid and eicosapentaenoic acid from the microalga Nanochloropsis sp. using imidazolium-based ionic liquids as an additive in water