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Comments on Effect of landfill age on the physical and chemical characteristics of waste plastics/microplastics in a waste landfill sites

ENVIRONMENTAL POLLUTION (2022)

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Summary: Plastics are essential but their degradation leads to the formation of microplastics (MPs), which have become a top environmental concern due to their pollution potential and threat to human health. This paper critically assesses the methodologies for extracting and characterizing MPs in organic solid matrices (OSMs), and identifies current obstacles and recommendations for future research. Additionally, legislative efforts against MPs and novel techniques for remediation are highlighted.

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Effect of landfill age on the physical and chemical characteristics of waste plastics/microplastics in a waste landfill sites

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Summary: This study investigated waste plastics with landfill age ranging from 7 to 30 years, revealing that PE and PP are the most common types, and their chemical composition has changed, while crystallinity is affected by plastic type and landfill age.

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A comprehensive methodology for determining buffering capacity of landfill-mined-soil-like-fractions

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SCIENCE OF THE TOTAL ENVIRONMENT (2022)

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Characterization and Utilization of Landfill-Mined-Soil-Like-Fractions (LFMSF) for Sustainable Development: A Critical Appraisal

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Summary: Unscientifically created landfills and dumps pose a severe threat to the geoenvironment due to the uncontrolled release of greenhouse gases and toxic leachate. Landfill mining is being advocated as a method to recover resources such as metals, plastics, glass, and paper from these sites, but it generates large volumes of fine-fractions, also known as 'Landfill-Mined-Soil-like-Fractions' (LFMSF), which are a mix of organics, soils, debris, and smaller chips of metals, plastics, and glass. Utilizing LFMSF as a manmade resource for sustainable development is still a challenge due to site-specific characteristics and lack of understanding.

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Characterisation of excavated landfill waste fractions to evaluate the energy recovery potential using Py-GC/MS and ICP techniques

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Recyclability of polypropylene after exposure to four different environmental conditions

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Photochemical dissolution of buoyant microplastics to dissolved organic carbon: Rates and microbial impacts

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Melting temperature versus crystallinity: new way for identification and analysis of multiple endotherms of poly(ethylene terephthalate)

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Environmental life cycle assessment of the recycling processes of waste plastics recovered by landfill mining

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WASTE MANAGEMENT (2020)

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Remarks on four novel landfill mining case studies in Estonia and Sweden

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JOURNAL OF MATERIAL CYCLES AND WASTE MANAGEMENT (2018)

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Physico-chemical properties of excavated plastic from landfill mining and current recycling routes

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Characteristics and the recovery potential of plastic wastes obtained from landfill mining

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