Carbon-induced effective lipid accumulation and self-flocculation for biofuel production of Tetradesmus obliquus FACHB-12

Utilizing rich organic matter in wastewater for microalgae cultivation is an attractive strategy to solve the highcost issue in microalgae biodiesel production. In this study, common carbon sources in wastewater were used as nutrients to explore their effects on biomass accumulation and lipid production of Tetradesmus obliquus FACHB12. The highest carbon fixation (1.2 g C center dot L-1) and biomass accumulation (1.99 g L-1) was achieved using glucose as the only carbon source for the microalgae cultivation in the designed system. In comparison, the high flocculation efficiency (89.63%) with the addition of glycerol achieved the recovery of lipids and starch at 0.36 g L-1 and 0.023 g L-1, respectively. In addition, results revealed that microalgae cells cultured with glycerol had the highest extracellular polymers fluorescence intensity of 2.84*104 R.U.center dot g- 1. This study provides insights of common carbon sources in wastewater for culturing microalgae, which leads to the potential reduction in microalgae cultivation cost and primary dewatering cost in practice.

Automated summary

Utilizing rich organic matter in wastewater for microalgae cultivation is an attractive strategy to solve the high-cost issue in microalgae biodiesel production. This study found that using glucose as the sole carbon source achieved the highest carbon fixation and biomass accumulation, while adding glycerol achieved high flocculation efficiency and improved lipid and starch recovery.