Author:

Keywords:

Science & Technology, Life Sciences & Biomedicine, Biotechnology & Applied Microbiology, Microalgae, Coagulation, Biopolymer, Harvesting, Dewatering, HARVESTING MICROALGAE, CHLORELLA-VULGARIS, SURFACE-WATER, WASTE-WATER, TANNIN, BIODIESEL, CHITOSAN, 0607 Plant Biology, 0904 Chemical Engineering, 1003 Industrial Biotechnology, 3108 Plant biology, 4004 Chemical engineering

Abstract:

Twenty-five natural and synthetic cationic polymers of different molecular weights and charge densities were evaluated for microalgae flocculation. Tanfloc is a natural low molecular weight tannin polymer whereas Zetag and Flopam are both synthetic high molecular weight polyacrylamide polymers. Five exponential concentrations (0.55, 1.66, 5, 15 and 45 mg L− 1) were tested for freshwater Chlorella vulgaris and marine Nannochloropsis oculata. All polymers were efficient (> 90% at ≥ 1.66 mg L− 1) for C. vulgaris. However, for N. oculata, only Tanfloc was effective. Charge density positively influenced flocculation decreasing the required polymer dosage. Restabilization was observed only for synthetic polymers when overdosed. Natural polymers performed similarly for both species. Overall, Tanfloc SL and Flopam FO 4990 SH were the most efficient polymers for microalgae flocculation though Tanfloc is a more economical option (US$37 per ton− 1 of biomass) and environmentally friendly than Flopam (US$171 per ton− 1 of biomass).