Comparative Study of Algae and Cactus as Bioflocculants in the Physico-chemical Treatment of Leachate from the Controlled Landfill

Landfilling is one of the most widely used methods of municipal solid waste (MSW) disposal. Up to 95% of the total municipal solid waste collected worldwide is landfilled. After landfilling, solid waste undergoes physico-chemical and biological changes. Consequently, the degradation of the organic f...

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Bibliographic Details
Published in:International Journal of Environmental Research 2022-10, Vol.16 (5), Article 76
Main Authors: Idlahcen, Abderrahim, Radaa, Chaimae, Bougdour, Nadia, Zoubir, Jallal, El Hayaoui, Widad, Tajat, Naoual, El Mouhri, Wail, Tamimi, Malika, Qourzal, Samir, Hajji, Chafia, Assabbane, Ali, Bakas, Idriss
Format: Article
Language:English
Subjects:
Algae
Biological materials
Chemical oxygen demand
Chemical treatment
Coagulants
Coagulation
Comparative studies
Earth and Environmental Science
Efficiency
Environment
Environmental Engineering/Biotechnology
Environmental Management
Ferric chloride
Flocculants
Flocculation
Fourier transforms
Geoecology/Natural Processes
Groundwater
Infrared spectroscopy
Landfill
Landfills
Landscape/Regional and Urban Planning
Leachates
Municipal landfills
Municipal solid waste
Municipal waste management
Natural Hazards
Opuntia
Parameters
Percolation
pH effects
Plant extracts
Pollution control
Polymers
Public health
Rain water
Research Paper
Salts
Scanning electron microscopy
Solid waste management
Solid wastes
Turbidity
Waste disposal sites
Wastewater treatment
Water pollution treatment
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Summary:Landfilling is one of the most widely used methods of municipal solid waste (MSW) disposal. Up to 95% of the total municipal solid waste collected worldwide is landfilled. After landfilling, solid waste undergoes physico-chemical and biological changes. Consequently, the degradation of the organic fraction of the waste, combined with the percolation of rainwater, leads to the production of leachate. If not properly treated, leachate from a landfill can enter the underlying groundwater, posing potentially serious risks to the surrounding environment and public health. Consequently, the search for effective and efficient landfill leachate treatment technologies has intensified in recent years. Bioflocculants are a sustainable alternative to metal salts and synthetic polymers for the treatment of water by coagulation–flocculation (CF). The literature has mainly described the optimal parameters for the application of bio-based materials in CF. The present study is based on the use of ferric chloride FeCl 3 in combination with two bioflocculants. The first bioflocculant is of Opuntia cactus origin, and the second is an algae bioflocculant. The flocculants were characterized by Scanning Electron Microscopy (SEM) and Fourier Transform Infrared spectroscopy (FTIR). The influence of various experimental parameters, such as: the quantities of coagulants and bioflocculants used, pH, turbidity, and Chemical Oxygen Demand (COD), were studied. The coagulation–flocculation tests show that with a mass of 3 g FeCl 3 , a COD abatement of 74% at pH = 6.55 and a turbidity reduction equal to 77% were achieved. The examination of the main parameters studied in the flocculation tests, in the presence of the two bioflocculants, Opuntia cactus and algae and ferric chloride FeCl 3 with a dose of 3 g, shows that the degree of pollution decreases, which is confirmed by an elimination efficiency of 86% for COD and 83% for turbidity values with the use of the Opuntia cactus bioflocculant, and an elimination of COD 87% and turbidity 81% with the use of algae bioflocculant. Article Highlights The valorization of bio-flocculants is currently a promising solution for the treatment of various polluted effluents. Bioflocculants are extracted from vigetalle plants. Bio-flocculation efficiency 86% for COD using the cactus. Bio-flocculation efficiency 87% for COD using the algue.
ISSN:1735-6865
2008-2304
DOI:10.1007/s41742-022-00457-y