Biological carbon capture, growth kinetics and biomass composition of novel microalgal species

Microalgae have been identified as a promising solution for capturing carbon dioxide (CO₂) and have been proven to be one of the most effective methods for CO₂ reduction. The present research discloses CO₂ fixation through green approach using novel microalgal species (Dictyosphaerium sp. strain DHM1 & strain DHM2) and evaluation of growth kinetics along with biomass characterization. Both microalgal strains were supplied with 0.04%, 2%, and 4% CO₂ concentration in two different sorts of photobioreactors (Lab-scale photobioreactor and Multi-Cultivator). Results showed that the growth parameters for both microalgal species substantially increased when supplied with 4% CO₂ compared to when supplied with 0.04% and 2% CO₂ in either type of Photobioreactor. Maximum growth was observed for Dictyosphaerium DHM1 when it was grown in 4% carbon dioxide in the Multi-Cultivator with 2.802 g L⁻¹ (X_max), 0.2 g L⁻¹ d⁻¹ (P_max), and highest carbon dioxide fixation rate was 0.21 g L⁻¹ d⁻¹.