4.6 Review

Physicochemical Technique in Municipal Solid Waste (MSW) Landfill Leachate Remediation: A Review

Journal

WATER
Volume 15, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/w15061249

Keywords

physicochemical; solid waste; COD; colour; landfill; leachate; semi-aerobic

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Leachate generation is a challenging issue in landfills, as it carries harmful pollutants. Current solutions involve multi-stage treatments to address high concentrations of BOD, COD, colour, and NH3-N. This review paper focuses on the remediation of landfill leachate with high COD, colour, and NH3-N levels and low biodegradability, particularly in old landfills in developing countries. It also discusses a potentially sustainable landfill design and offers recommendations for future prospects, specifically in Malaysia and other developing countries with similar characteristics.
Leachate generation is among the main challenging issues that landfill operators must handle. Leachate is created when decomposed materials and rainwater pass through the waste. Leachate carries many harmful pollutants, with high concentrations of BOD, COD, colour, heavy metals, ammoniacal nitrogen (NH3-N), and other organic and inorganic pollutants. Among them, COD, colour, and NH3-N are difficult to be completely eliminated, especially with a single treatment. They should be handled by appropriate treatment facilities before being safely released into the environment. Leachate remediation varies based on its properties, the costs of operation and capital expenditures, as well as the rules and regulations. Up until now, much scientific and engineering attention was given to the development of comprehensive solutions to leachate-related issues. The solutions normally demand a multi-stage treatment, commonly in the form of biological, chemical, and physical sequences. This review paper discussed the use of contemporary techniques to remediate landfill leachate with an emphasis on concentrated COD, colour, and NH3-N levels with low biodegradability that is normally present in old landfill or dumping grounds in developing countries. A semi-aerobic type of landfill design was also discussed, as this concept is potentially sustainable compared to others. Some of the challenges and future prospects were also recommended, especially for the case of Malaysia. This may represent landfills or dumpsites in other developing countries with the same characteristics.

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