A circular approach for landfill leachate treatment: Chemical precipitation with biomass ash followed by bioremediation through microalgae

The aim of this work was to study an integrated approach for landfill leachate remediation comprising chemical precipitation with biomass bottom ash as a pre-treatment to reduce color and turbidity followed by bioremediation through microalgae treatment for effluent disposal. Optimal pre-treatment c...

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Bibliographic Details
Published in:Journal of environmental chemical engineering 2021-06, Vol.9 (3), p.105187, Article 105187
Main Authors: Viegas, Catarina, Nobre, Catarina, Mota, André, Vilarinho, Cândida, Gouveia, Luísa, Gonçalves, Margarida
Format: Article
Language:English
Subjects:
Bioremediation
Bottom ash
Landfill
Landfill leachate treatment
Microalgae
Mortars
Precipitation
Wastewater treatment
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Summary:The aim of this work was to study an integrated approach for landfill leachate remediation comprising chemical precipitation with biomass bottom ash as a pre-treatment to reduce color and turbidity followed by bioremediation through microalgae treatment for effluent disposal. Optimal pre-treatment conditions were determined through batch experiments and were found to be 160 g L−1 ash dose, 96 h of contact time, overhead agitation at 15 rpm and ash particle size below 500 µm. These conditions led to removal efficiencies of 74.3% for chemical oxygen demand and 98.5% for color. Large quantities of sludge containing excess biomass ash and precipitated compounds were formed during the pre-treatment. To minimize solid disposal, this sludge was tested as a raw material for cementitious and aggregate substitute in mortar formulations. Following the pre-treatment, the leachate was inoculated with six different microalgae species to evaluate their ability to grow in such a recalcitrant effluent and remediate it. After a period of 27 days biomass concentration from 0.4 to 1.2 g L−1 were achieved for the tested microalgae. Removal efficiencies were in the range of 18–62% for COD, 63–71% for N, and 15–100% for P. At the end of the treatment, algal biomass was characterized regarding protein, lipid, fatty acids, carbohydrate, and ash contents. This approach allows a low-cost remediation of these recalcitrant effluents when compared with the present options that include inverse osmosis, and the valorization of ash-rich precipitates and microalgae biomass improves the sustainability of the overall process. [Display omitted] •Precipitation with biomass ash is a promising pre-treatment for landfill leachate.•Pre-treatment reduced 74% of COD and 99% of color.•Microalgae were able to remediate undiluted pretreated landfill leachate.•Bioremediation showed reductions of 62%, 71% and 100% for COD, N and P, respectively.•Pre-treatment by-products showed potential to be used in mortar formulations.
ISSN:2213-3437
2213-3437
DOI:10.1016/j.jece.2021.105187