Integrating microalgae-based wastewater treatment, biostimulant production, and hydroponic cultivation: a sustainable approach to water management and crop production

Abstract: A natural appearing microalgae-bacteria consortium was used to process urban wastewater. The process was done in an 80 m2 raceway reactor and the results were compared to an identical reactor operated using freshwater supplemented with commercial fertilisers. The biomass harvesting was done using commercial ultrafiltration membranes to reduce the volume of culture centrifuged. The membrane allowed achieving a biomass concentration of ∼9–10 g L−1. The process proposed avoids the use of centrifuges and the dryin… Show more

“…For example, a naturally occurring microalgae-bacteria consortium employed to process urban wastewater operated in an 80 m 2 raceway reactor, which resulted in the efficient removal of nutrients and incorporation into microbial biomass. Then, the treated effluent is used for watering edible crops, and the accumulated biomass is used as feedstock to stimulate plant growth [ 257 ]. As a requirement of high hydraulic retention time is one of the common limitations incurred in the application of microalgae-bacteria consortia, Arango et al [ 258 ] studied the performance of microalgae-bacteria consortium operated in 50L raceway reactors to treat real municipal sewage with or without external microfiltration membrane at 4h and 7h retention times.…”

Microalgae-bacteria nexus for environmental remediation and renewable energy resources: Advances, mechanisms and biotechnological applications

“…For example, a naturally occurring microalgae-bacteria consortium employed to process urban wastewater operated in an 80 m 2 raceway reactor, which resulted in the efficient removal of nutrients and incorporation into microbial biomass. Then, the treated effluent is used for watering edible crops, and the accumulated biomass is used as feedstock to stimulate plant growth [ 257 ]. As a requirement of high hydraulic retention time is one of the common limitations incurred in the application of microalgae-bacteria consortia, Arango et al [ 258 ] studied the performance of microalgae-bacteria consortium operated in 50L raceway reactors to treat real municipal sewage with or without external microfiltration membrane at 4h and 7h retention times.…”

Microalgae-bacteria nexus for environmental remediation and renewable energy resources: Advances, mechanisms and biotechnological applications