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Microalgae Biomass Harvesting Using Chitosan Flocculant: Optimization of Operating Parameters by Response Surface Methodology

Harun Elcik, Doğan Karadağ, Ayse Irem Kara, Mehmet Çakmakçı

2023Separations17 citationsDOIOpen Access PDF

Abstract

Bioflocculants can be used for cost-effective harvesting of microalgae biomass on an industrial scale. This study investigates the flocculation-based harvesting approach to recovering Chlorella vulgaris microalgae biomass using chitosan biopolymer. Response surface methodology (RSM) was used to design the experiments and optimize the critical operating parameters. Box-Behnken Design (BBD) was employed at three levels, and 17 experimental runs were conducted to determine the optimal conditions and the relationship between operating parameters. The highest biomass recovery of 99.10% was achieved at the following optimized conditions: pH of 5, flocculation time of 45 min, and chitosan concentration of 10 mg/L. Both experimental results and model outputs indicated that pH significantly impacts microalgae harvesting and that process performance is less dependent on chitosan concentration and flocculation time. The quadratic model has shown the best fit with the experimental results. The results could be applied to large-scale microalgae harvesting applications to promote microalgae biomass recovery and reduce operating costs.

Topics & Concepts

Response surface methodologyChlorella vulgarisBiomass (ecology)FlocculationChitosanPulp and paper industryCentral composite designBiopolymerEnvironmental scienceBiotechnologyMathematicsProcess engineeringEnvironmental engineeringChemistryBotanyChemical engineeringBiologyEngineeringAlgaeAgronomyStatisticsPolymerOrganic chemistryAlgal biology and biofuel productionBiodiesel Production and ApplicationsElectrohydrodynamics and Fluid Dynamics
Microalgae Biomass Harvesting Using Chitosan Flocculant: Optimization of Operating Parameters by Response Surface Methodology | Litcius