Characterization of Lipid Components in Two Microalgae for Biofuel Application

A full characterization of lipid components is critical for selecting the most suitable microalgae and for downstream processing for biofuel production. This study demonstrates extraction, quantification, and diversity of lipid components from two microalgae of different types. For total lipid quantification, three extraction methods were compared and the method of pre‐drying, dry ice‐assisted grinding, and sequential solvent extraction gave the highest total lipid recovery. For lipid class composition determination, the photosynthetic Nannochloropsis contained 37.0% polar lipids, 41.1% triacylglycerols, and 12.5% unsaponifiable matter, whereas, the heterotrophic Schizochytrium had much less polar lipids and unsaponifiable matter. Further separation and quantification showed that Nannochloropsis contained more glycolipids (37.1% of total polar lipids) than that in Schizochytrium (14.3%) , while Schizochytrium contained much more phospholipids (85.7%) than that in Nannochloropsis (44.7%). The major components in unsaponifiable matter of Nannochloropsis were hydrocarbon and cholesterol (55.8 and 37.7% of the total GC quantifiable matter), which only accounted for 29.3% of total unsaponifiable matter. For Schizochytrium , 15.4% squalene, 28.9% cholesterol, and 43.2% stigmasta‐4,7,22‐trien‐3‐ol were found in its GC quantifiable matter, and the total quantified hydrocarbon and sterols accounted for 50.5% of unsaponifiable matter. The lipid compositions of the two types of microalgae are very different, therefore, processing performance, such as lipid extraction and conversion to biodiesel may be different. Similar lipid characterization for other biofuel types of microalgae needs to be made to ensure optimal biofuel processing and fuel quality.