Cultivation of microalgae at high-density with pretreated liquid digestate as a nitrogen source: Fate of nitrogen and improvements on growth limitations

A liquid digestate rich in ammonium nitrogen (8.3 g L-1) was collected from an agricultural biogas plant and supplied to microalgae cultures as their only nitrogen source. Chlorella vulgaris was cultivated for up to 21 days, both under controlled conditions in laboratory-scale glass-column photobioreactors as well as outdoors in an open pilot-scale thin-layer photobioreactor. By systematically addressing issues associated with the use of liquid digestate (i.e., turbidity, nutrient imbalance, ammonium toxicity, and acidification), microalgae were robustly cultivated at a high density and cultures achieved a net biomass dry weight of between 10 and 14 g L-1, and a productivity of up to 0.93 g L-1 d(-1) (93% of maximum expectation). Cultivation in the thin-layer photo- bioreactor achieved areal productivities between 7 and 10 g m(-2) d(-1). Water acidification due to the uptake of ammonium by microalgae was prevented by a controlled addition of NaOH. A detailed mass balance showed that, despite high removal efficiencies (approximately 3% of the supplied nitrogen remained in the medium), microalgae assimilated only 40-60% of the supplied nitrogen and, consequently, a large amount of nitrogen was lost to the atmosphere.

Automated summary

By using liquid digestate as the sole nitrogen source, it was found that Chlorella vulgaris could be successfully cultivated at high densities with relatively high productivity. Additionally, water acidification due to ammonium uptake by microalgae was prevented by controlled addition of NaOH.