ABSTRACT
Microalgal biomass is considered as the most promising feedstock for sustainable production of liquid fuels. Lipid production with Microchloropsis salina was studied in open thin-layer cascade (TLC) photobioreactors with a surface area of 8â¯m2 applying a physically simulated Mediterranean summer climate. High lipid concentrations of up to 6.6â¯gâ¯L-1 with 46% (w w-1) total lipids in dry cell mass were achieved in two-phase batch processes applying a nitrogen limitation. The two-phase batch process was transferred into a continuously operated reactor cascade of two TLC photobioreactors. Microchloropsis salina cells were produced continuously in the first photobioreactor, whereas continuous lipid production was enabled in the second, nitrogen-limited TLC photobioreactor resulting in continuous production of 3.0â¯gâ¯L-1 lipids with a high overall lipid space-time-yield of 0.2â¯gâ¯L-1 d-1. The control of alkalinity to about 10â¯mM resulted in high CO2 conversion efficiencies of 84-87%.