The effects of influent chemical oxygen demand and strigolactone analog concentration on integral biogas upgrading and pollutants removal from piggery wastewater by different microalgae-based technologies

Abstract

Microalgae-based technologies are promising strategies for efficient wastewater treatment and biogas upgrading. In this study, three types of microalga-fungi/bacteria symbiotic systems stimulated with the strigolactone analog (GR24) were used to simultaneously remove nutrients from treated piggery wastewater and CO₂ from biogas. The effects of initial concentrations of chemical oxygen demand (COD) and GR24 on nutrient removal and biogas upgrading were investigated. When the initial COD concentration was 1200 mg/L, the Chlorella vulgaris-Ganoderma lucidum-endophytic bacteria co-cultivation systems achieved the best photosynthetic performance and microalgae growth. Moreover, under the appropriate COD concentration (1200 mg/L), the highest nutrient/CO₂ removal efficiencies were obtained. In addition, 10^-9 M GR24 significantly accelerated nutrient/CO₂ removal efficiencies. These findings provide a theoretical basis for scale-up experiments using microalgae-based technologies.

Keywords: Algal-fungal pellets; Dilution ratio; Endophytic bacteria; Photosynthetic performance; Removal efficiency.