Microalgae-Based Wastewater Treatment Processes for the Bioremediation and Valorization of Biomass: A Review

Conventional wastewater treatment methods often rely on energy-intensive physical and chemical processes that are costly and may generate secondary pollution. These limitations have prompted the exploration of more sustainable alternatives. Among them, phycoremediation, particularly using microalgae, has emerged as a promising strategy for mitigating environmental pollution. Microalgae possess unique capabilities to sequester heavy metals, assimilate nutrients, and degrade emerging contaminants while simultaneously producing valuable biomass. The efficacy of microalgal bioremediation can be enhanced through omics-based approaches, which enable these biological agents to convert toxic compounds into non-toxic forms and improve ecosystem health. Additionally, forming microalgae–microorganism consortia can enhance process efficiency and cost-effectiveness. This review highlights multi-pronged strategies for pollutant mitigation in wastewater, focusing on environmentally and economically viable microalgal cultivation systems. It also identifies research gaps and discusses the potential for biomass valorization into economically important products.