Water phycoremediation of organic and inorganic target compounds

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Authors

  • Gabriele Araújo Correa da Rocha Rio de Janeiro State University - UERJ, Brazil
  • Grazielle Christine de Mattos da Silva Rio de Janeiro State University - UERJ, Brazil
  • Beatriz de Almeida Rocha Rio de Janeiro State University - UERJ, Brazil
  • Thaís Barros Matheus Pinho Rio de Janeiro State University - UERJ, Brazil
  • André Luís de Sá Salomão Rio de Janeiro State University - UERJ, Brazil
  • Marcia Marques Rio de Janeiro State University - UERJ, Brazil

Keywords:

Phycoremediation, Microalgae density, Algae biomass, Biotransformation, Tertiary effluent treatment.

Abstract

Phycoremediation for wastewater treatment has been recognized as an alternative and promising approach to wastewater treatment and has received considerable attention in recent years. The ability of microalgae species to remove organic and inorganic contaminants in wastewater and their ability to survive under extreme environmental conditions make them excellent candidates for using in a final wastewater polishing step. The main objective was to evaluate three species, in monocultures of single-celled photosynthetic microalgae (Chlorella vulgaris, Desmodesmus subspicatus and Raphidocelis subcapitata) regarding the removal and biotransformation of organic and inorganic compounds of interest usually present in domestic effluents, for future application in decentralized wastewater treatment systems (DWWTS) as a final polishing step. The microalgae were exposed to a solution with 600 mg L-1 of COD, 24 mg L-1 of total nitrogen and 10 mg L-1 of phosphate, in mineral water in two different densities (105 and 107 algae mL-1), with constant aeration, temperature 25-28°C and photoperiod of 16:8h (light:dark). After 96h, algae biomass production was observed for the three microalgae species, with an increase in dry biomass of 17.3-times in the density of 105 algae mL-1 and 11.4-times in 107 algae mL-1, in comparison with two controls established with mineral water and culture medium, which had biomass production of 2-times and 8.7-times respectively. COD reduction was related to algae density, being higher in 107 algae mL-1 bioassays. However, in all bioassays, the COD reduction was higher than 78%. The highest nitrogen removal (80% or 19.1 mg L-1) was observed in the C. vulgaris bioassay (107 algae mL-1). However, D. subspicatus promoted the highest phosphate removal (34% or 3.8 mg L-1). In summary, nitrogen and phosphate removals considering all bioassays reached in average 68% and 21%, respectively. These results reinforce the potential of using microalgae as a final polishing step in a DWWTS.

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Published

2020-11-20

Issue

Section

Coastal zones issues