Synthesis of Microalgal Photogranules for Hydroponics Effluent Treatment

Amidst the global challenge of nutrient-rich hydroponics effluent (HE) discharge, microalgal technology offers a sustainable solution for wastewater treatment and resource recovery. However, microalgae harvesting remains a major economic constraint. To address this, novel microalgal photogranules (MPGs) were developed by using Scenedesmus obliquus for HE treatment and recycling. Over 60 days of photoillumination, MPGs self-aggregated into dense granules with superior settleability (SVI₃0 = 20 mL g^–1). Field emission scanning electron microscopy (FE-SEM) revealed compact structures with surface-attached microalgae and internal micropores that facilitate substrate and gas transport. HE-grown MPGs showed enhanced biomass productivity (0.18 ± 0.09 g L^–1 day^–1) compared to those from sewage sludge (0.13 ± 0.06 g L^–1 day^–1) and achieved a high CO₂ biofixation rate (25.53 ± 2.12 g L^–1 day^–1). MPGs enabled complete removal of biological oxygen demand (BOD) and chemical oxygen demand (COD), ≈99% of PO₄^3– and NH₃-N and 90.2% of NO₃^–-N. Metagenomic analysis (16S rRNA) indicated a cyanobacterial shift under HE conditions, enhancing pollutant removal. Outdoor validation confirmed effective pollutant removal with only a 1-day delay compared to indoor trials. Succinctly, MPGs offer a sustainable and ecoefficient solution for wastewater recycling, supporting environmental resilience and circular bioeconomy transitions.