Influence of composition and degradation on the shear strength of municipal solid waste

•Two to 25-year-old exhumed wastes were tested in a large scale direct shear device.•Chemical and biochemical tests were performed to access the waste degradation state.•Less degraded wastes show higher cohesion and lower friction angles.•Well degraded wastes show less cohesion and higher friction a...

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Published inWaste management (Elmsford) Vol. 68; pp. 263 - 274
Main Authors Abreu, A.E.S., Vilar, O.M.
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.10.2017
Subjects
Biodegradation
Gravimetric composition
Landfills
Large-scale direct shear testing
Plastics
Refuse Disposal
Shear Strength
Soil
Solid Waste
Biodegradation
Large-scale direct shear testing
Shear strength
Gravimetric composition
Landfills
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Abstract •Two to 25-year-old exhumed wastes were tested in a large scale direct shear device.•Chemical and biochemical tests were performed to access the waste degradation state.•Less degraded wastes show higher cohesion and lower friction angles.•Well degraded wastes show less cohesion and higher friction angles.•The sampling method and scalping interfere in laboratory measured shear resistance. This study aimed to evaluate the shear strength of municipal solid waste (MSW) of different landfilling ages exhumed from disposal sites in a subtropical humid environment. Wastes which had been landfilled from ages of 2 up to 25years were characterized using physical, chemical and biochemical tests and were tested in a large scale direct shear device. The results indicate that the tested wastes older than five years had reached similar decomposition stages, but showed different compositions in terms of soft plastics, incompressible material and reinforcing elements. Different composition was also noticed between less degraded and more degraded samples. In the former, the soil-like materials, that is the particles smaller than 19mm, are essentially reinforcing components while in the later it is formed mainly by incompressible components. Although MSW composition did not vary significantly throughout the years, some difference in the originally landfilled waste could account for the observed variations. However, they are mainly the result of exhuming and preparation methods, whose influence is discussed in the paper, as well as the waste degradation state. The reinforcing components, rather than the soft plastics content, correlated well with cohesion intercept increase, both for the less and more degraded waste samples. The results also indicate that as MSW degrades the waste material evolves from an initially highly cohesive material to one that loses cohesion yet gains in shear strength angle over time.
AbstractList This study aimed to evaluate the shear strength of municipal solid waste (MSW) of different landfilling ages exhumed from disposal sites in a subtropical humid environment. Wastes which had been landfilled from ages of 2 up to 25years were characterized using physical, chemical and biochemical tests and were tested in a large scale direct shear device. The results indicate that the tested wastes older than five years had reached similar decomposition stages, but showed different compositions in terms of soft plastics, incompressible material and reinforcing elements. Different composition was also noticed between less degraded and more degraded samples. In the former, the soil-like materials, that is the particles smaller than 19mm, are essentially reinforcing components while in the later it is formed mainly by incompressible components. Although MSW composition did not vary significantly throughout the years, some difference in the originally landfilled waste could account for the observed variations. However, they are mainly the result of exhuming and preparation methods, whose influence is discussed in the paper, as well as the waste degradation state. The reinforcing components, rather than the soft plastics content, correlated well with cohesion intercept increase, both for the less and more degraded waste samples. The results also indicate that as MSW degrades the waste material evolves from an initially highly cohesive material to one that loses cohesion yet gains in shear strength angle over time.
•Two to 25-year-old exhumed wastes were tested in a large scale direct shear device.•Chemical and biochemical tests were performed to access the waste degradation state.•Less degraded wastes show higher cohesion and lower friction angles.•Well degraded wastes show less cohesion and higher friction angles.•The sampling method and scalping interfere in laboratory measured shear resistance. This study aimed to evaluate the shear strength of municipal solid waste (MSW) of different landfilling ages exhumed from disposal sites in a subtropical humid environment. Wastes which had been landfilled from ages of 2 up to 25years were characterized using physical, chemical and biochemical tests and were tested in a large scale direct shear device. The results indicate that the tested wastes older than five years had reached similar decomposition stages, but showed different compositions in terms of soft plastics, incompressible material and reinforcing elements. Different composition was also noticed between less degraded and more degraded samples. In the former, the soil-like materials, that is the particles smaller than 19mm, are essentially reinforcing components while in the later it is formed mainly by incompressible components. Although MSW composition did not vary significantly throughout the years, some difference in the originally landfilled waste could account for the observed variations. However, they are mainly the result of exhuming and preparation methods, whose influence is discussed in the paper, as well as the waste degradation state. The reinforcing components, rather than the soft plastics content, correlated well with cohesion intercept increase, both for the less and more degraded waste samples. The results also indicate that as MSW degrades the waste material evolves from an initially highly cohesive material to one that loses cohesion yet gains in shear strength angle over time.
Author Vilar, O.M.
Abreu, A.E.S.
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Keywords Biodegradation
Large-scale direct shear testing
Shear strength
Gravimetric composition
Landfills
Language English
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SSID ssj0014810
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Snippet •Two to 25-year-old exhumed wastes were tested in a large scale direct shear device.•Chemical and biochemical tests were performed to access the waste...
This study aimed to evaluate the shear strength of municipal solid waste (MSW) of different landfilling ages exhumed from disposal sites in a subtropical humid...
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pubmed
elsevier
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StartPage 263
SubjectTerms Biodegradation
Gravimetric composition
Landfills
Large-scale direct shear testing
Plastics
Refuse Disposal
Shear Strength
Soil
Solid Waste
Title Influence of composition and degradation on the shear strength of municipal solid waste
URI https://dx.doi.org/10.1016/j.wasman.2017.05.038
https://www.ncbi.nlm.nih.gov/pubmed/28606424
https://search.proquest.com/docview/1909227594
Volume 68
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