Maximizing Energy Content and CO Bio-fixation Efficiency of an Indigenous Isolated Microalga HY-6 Through Nutrient Optimization and Water Recycling During Cultivation.

An alternative source of energy and materials with low negative environmental impacts is essential for a sustainable future. Microalgae is a promising candidate in this aspect. The focus of this study is to optimize the supply of nitrogen and carbon dioxide during the cultivation of locally isolated strain HY-6. This study focuses on optimizing nitrogen and CO supply based on total biomass and biomass per unit amount of nitrogen and CO. Total biomass increased from 1.23 to 2.30 g/L with an increase in nitrogen concentration from 15.8 to 47.4 mg/L. However, biomass per unit amount of nitrogen supplied was higher at low nitrogen content. Biomass and CO fixation rate increased at higher CO concentrations in bubbling air, but CO fixation efficiency decreased drastically. Finally, the energy content of biomass increased with increases in both nitrogen and CO supply. This work thoroughly analyzed the biomass composition ultimate, proximate, and biochemical analysis. Water is recycled three times for cultivation at three different nitrogen levels. Microalgae biomass increased during the second recycling and then decreased drastically during the third. Activated carbon helped remove the organics after the third recycling to improve the water recyclability. This study highlights the importance of selecting appropriate variables for optimization by considering net energy investment in terms of nutrients (as nitrogen) and CO fixation efficiency and effective water recycling.