A strain of the algae called Chlorella sorokiniana was used for the experiment. database of the human genome (accession No. MH923013.1), Chlorella sorokiniana was shown to be highly effective in reducing CO2 gas through the treatment time of the gas, with reductions reaching 92.94% after 3 days from the start of the study for the highest level of gas, which is 25 L / min, which is equivalent to 6000 mg / l, when grown in Nitrogen Phosphorus Potassium (NPK) culture medium over the course of a 24-day laboratory study. In addition to the chemical contents shown by the protein proportions, Chlorella sorokiniana biomass also produced an exponential increase in the uniform optical density of the mass of Chlorella sorokiniana within the five gas levels, which peaked at 0.294, 0.311, 0.345, 0.431, and 0.511 nm, respectively, when compared to the adult control. As of culture day 24, we have a reading of 0.098 nm.