Benefits of combining anaerobic digestion and amino acid extraction from microalgae

Abstract

The anaerobic digestion of Scenedesmus residues generated after a process of amino acid extraction with

an extraction efficiency of 59% was thoroughly studied in 3 L working volume semi-continuous reactors.

Anaerobic digestion of high concentrated Scenedesmus residues (17.6%TS) was inhibited due to ammonia

and volatile acids accumulation. Dilution of the substrate to 10.5%TS avoided the inhibition of the process.

The acclimation of microorganisms to the digestion of the substrate caused a further improvement

in the process performance. High biogas and methane yields (409.3 and 291.5 L kg VS 1, respectively)

were achieved at an organic loading rate of 3.85 g VS L 1 d 1 with an hydraulic retention time of 20 days.

Electrical and thermal energy (0.525 kWh and 2305.9 kJ per kg 1

dry cultivated biomass) generated by the combustion

of methane could be used for the different steps within the culturing of microalgae and the amino

acid extraction processes. Moreover, a mass balance suggested that nitrogen and carbon dioxide needs for

growing microalgae could be cut to a maximum of 30% and 25%, respectively, thanks to the coupling of

anaerobic digestion to the extraction of amino acids from microalgae.