Strategic Use of Extremophilic Microalgae as a Carbon Source in the Thermo-Chemical Process

Abstract: Microalgal biomass has a high CO2 fixation and growth rate when using CO2 as a carbon source. Moreover, biomass can also be employed as a carbon resource to produce biofuels and chemicals. As the growth rate of extremophilic microalgae remains unaffected by harsh conditions, the present study proposes that these microalgae (such as Galdieria sulphuraria) are a rapidly growing carbon resource for syngas production. Hence, two different experiments were performed as part of this study: (1) cultivation of G. sulp… Show more

“…These emissions will lead to glacier melting, land aridity, changes in biological species, and other environmental problems . Carbon capture, utilization, and storage (CCUS) technology has been considered as an effective emission reduction strategy to address this challenge. , Among CCUS techniques, Microalgae-based carbon capture is the most promising method. , However, the low solubility of CO 2 during microalgae cultivation remains a major challenge …”

Effect of DACH-K₂CO₃ Mixed Absorbent on the Performance of a CO₂ Absorption and Microalgae Conversion (CAMC) System

“…These emissions will lead to glacier melting, land aridity, changes in biological species, and other environmental problems . Carbon capture, utilization, and storage (CCUS) technology has been considered as an effective emission reduction strategy to address this challenge. , Among CCUS techniques, Microalgae-based carbon capture is the most promising method. , However, the low solubility of CO 2 during microalgae cultivation remains a major challenge …”

Effect of DACH-K₂CO₃ Mixed Absorbent on the Performance of a CO₂ Absorption and Microalgae Conversion (CAMC) System

Extremophiles and their expanding biotechnological applications

Intensified effect of phosphorus doping to La-Fe-O perovskite-type oxygen carrier in microalgae chemical looping gasification for enhanced syngas production