CO2Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

Various anthropogenic activities worsen climate conditions and cause water scarcity.
As result, many studies have been conducted using microalgae to address these problems.
Chlorella vulgaris is known to thrive in different type of environmental condition, making it
beneficial for utilization. The objectives of this research were to combine the use of domestic
wastewater (DWW) while at the same time inject CO2 in order to analyze C. vulgaris’ ability to
perform CO2 uptake and wastewater treatment. Industrial CO2 gas cylinder was used to supply
CO2 into the airlift photobioreactor (PBR) containing 40% and 60% DWW. C. vulgaris was
inoculated into the biosystem and cultivated for 7 days. The results show that C. vulgaris can
grow under high CO2 supply conditions and used DWW as a nutrient source. The efficiency of
pollutant absorption, such as ammonia, phosphate, MBAS ranges from 82.28% to 98.91%.
However, its productivity is still low, and the organic matter (BOD and COD) treatment in DWW
is not yet optimal.