Water Science and Technology (Aug 2023)
Hybrid microalgae-activated sludge system for carbon-efficient wastewater treatment
Abstract
Engineered microalgae-bacteria systems can play a key role in the realisation of energy-efficient carbon-neutral wastewater treatment technologies. An attempt was made to develop a hybrid microalgae-activated sludge (HMAS) system coupling carbon capture with domestic wastewater treatment. Photobioreactors internally illuminated with red light-emitting diodes (LEDs), and inoculated with mixed microbial culture, resulted in substantial savings in operational cost. System performance was evaluated at about 600 μmol/m2 s LED irradiance while treating synthetic municipal wastewater in a chemostat for about 2 months, containing about 250 mg/L soluble chemical oxygen demand (SCOD), 90 mg/L NH3-N and 10 mg/L orthophosphate. Carbon dioxide was supplied into the HMAS at 25 mL/min, 25% v/v. SCOD was efficiently removed from the wastewater (up to 70%) and bacterial oxygen requirement of >2 mg/L was met through microalgal photosynthesis. The system demonstrated its potential in achieving carbon-efficient wastewater treatment. HIGHLIGHTS A hybrid microalgae-activated sludge (HMAS) system coupling carbon capture with wastewater treatment.; Up to 75% soluble chemical oxygen demand removal achieved.; Ammonium removal efficiencies greater than 90% were achieved in all the bioreactors.; Need for external aeration was eliminated by satisfying bacterial oxygen requirements.; Need for further studies with other types of wastewater.;
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