Integrating biological and chemical CO2 sequestration using green microalgae for bioproducts generation

Abstract: Microalgae cultivation is considered an attractive negative emission technology (NET) due to its ability to remove carbon dioxide (CO2) from the atmosphere as well as from flue gases. Moreover, some microalgae can uptake dissolved carbon in the form of bicarbonate (HCO3-) and grow well by removing nutrients from various wastewater effluents without competing with freshwater resources. Conventional carbon mineralization is another NET where carbon is fixed into carbonate minerals such as calcite (CaCO3), magnes… Show more

“…Eustance et al [39] reported similar results at laboratory scale; they observed an extreme shift in pH when the strains were grown at high ammonium concentrations (i.e., 2.94 mM ammonium chloride) in unbuffered medium, which triggered growth inhibition and chlorophyll degradation. Furthermore, the results from our previous work [40] showed that mineral carbonates such as sodium carbonate (Na2CO3) or MgCO3.3H2O (nesquehonite) can buffer the pH well and maintain it within acceptable algae physiological values. Biomass growth over time was evaluated by measuring fluorescence (fluorescence units, FU) and ash-free dry weight (AFDW, in g/L).…”

On-Site Pilot-Scale Microalgae Cultivation Using Industrial Wastewater for Bioenergy Production: A Case Study towards Circular Bioeconomy

“…Eustance et al [39] reported similar results at laboratory scale; they observed an extreme shift in pH when the strains were grown at high ammonium concentrations (i.e., 2.94 mM ammonium chloride) in unbuffered medium, which triggered growth inhibition and chlorophyll degradation. Furthermore, the results from our previous work [40] showed that mineral carbonates such as sodium carbonate (Na2CO3) or MgCO3.3H2O (nesquehonite) can buffer the pH well and maintain it within acceptable algae physiological values. Biomass growth over time was evaluated by measuring fluorescence (fluorescence units, FU) and ash-free dry weight (AFDW, in g/L).…”

On-Site Pilot-Scale Microalgae Cultivation Using Industrial Wastewater for Bioenergy Production: A Case Study towards Circular Bioeconomy

Perspectives on cultivation and harvesting technologies of microalgae, towards environmental sustainability and life cycle analysis

Microalgae-mediated biofixation as an innovative technology for flue gases towards carbon neutrality: A comprehensive review