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

https://doi.org/10.1016/j.biteb.2022.100982Get rights and content

Highlights

Two novel microalgal species Dictyosphaerium sp. DHM1 and DHM2 has been studied.

The Multi-Cultivator have shown more effective outcomes in CO2 fixation.

Both microalgae species have shown a higher CO2 fixation rate (g L−1 d−1) at 4% CO2.

Abstract

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 (Xmax), 0.2 g L−1 d−1 (Pmax), and highest carbon dioxide fixation rate was 0.21 g L−1 d−1.

Keywords

Biological Carbon Capture
Dictyosphaerium sp.
Growth kinetics
Microalgae
Multi-Cultivator
View Abstract