Effect of Material Composition on Geotechnical Properties—Study on Synthetic Municipal Solid Waste

IF 2.2 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL Environmental geotechnics Pub Date : 2023-05-18 DOI:10.3390/geotechnics3020023
Vidit Singh, T. Uchimura
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Abstract

The geotechnical properties of municipal solid waste (MSW) are required to design and maintain a landfill structure. Several landfill failures occurring in recent times have led to the loss of revenue and people. This study aims to investigate the impact of material composition on the geotechnical properties of fresh synthetic municipal solid waste (SMSW), which imitates the real waste produced in India. The study aims to understand the contribution of each material, such as paper, plastic, and organic matter, on the shear behavior of SMSW, which is essential for designing landfills and ensuring their safety and performance. A modified proctor test and a large-scale direct shear test were used to determine the unit weight and shear strength of SMSW, respectively. The synthetic waste’s unit weight and shear strength were found to be consistent with values that had already been published. The shear strength parameters of SMSW include cohesion, which was determined to be at the lower bound of the envelope, and friction angle within the envelope. Lower unit weight, less fine soil-like material, and dry material are thought to be the causes of the observed variation in the behavior of actual waste in synthetic waste. The findings of this experiment demonstrated that as the proportion of paper increases, the cohesion (C) increases, and the friction angle (Φ) decreases. Cohesion and friction angle both decrease as the proportion of plastic increases. Cohesion and friction angle both increase with an increase in the organic percentage. These findings demonstrate that each material contributes differently to the shear behavior of SMSW. Hence, the material composition’s effect should be considered while designing a landfill for improved safety and reliability.
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材料成分对土工性能的影响——以合成城市生活垃圾为例
设计和维护填埋场结构需要城市固体废物(MSW)的岩土特性。近年来发生的几起垃圾填埋场事故导致了收入和人员的损失。本研究旨在研究材料成分对新鲜合成城市固体废物(SMSW)岩土力学性能的影响,该垃圾模仿印度产生的真实废物。该研究旨在了解每种材料(如纸张、塑料和有机物)对SMSW剪切行为的贡献,这对于设计垃圾填埋场并确保其安全和性能至关重要。采用改进的普罗克特试验和大型直剪试验分别确定了SMSW的单位重量和抗剪强度。发现合成废物的单位重量和抗剪强度与已经发表的值一致。SMSW的抗剪强度参数包括粘聚力(确定为包络线的下界)和包络线内摩擦角。较低的单位重量,较少的细土样物质和干燥物质被认为是观察到的合成废物中实际废物行为变化的原因。实验结果表明,随着纸张比例的增加,黏聚力(C)增大,摩擦角(Φ)减小。黏聚力和摩擦角随塑性比例的增加而减小。黏聚力和摩擦角均随有机含量的增加而增大。这些发现表明,每种材料对SMSW的剪切行为贡献不同。因此,在设计填埋场时应考虑材料成分的影响,以提高填埋场的安全性和可靠性。
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来源期刊
Environmental geotechnics
Environmental geotechnics Environmental Science-Water Science and Technology
CiteScore
6.20
自引率
18.20%
发文量
53
期刊介绍: In 21st century living, engineers and researchers need to deal with growing problems related to climate change, oil and water storage, handling, storage and disposal of toxic and hazardous wastes, remediation of contaminated sites, sustainable development and energy derived from the ground. Environmental Geotechnics aims to disseminate knowledge and provides a fresh perspective regarding the basic concepts, theory, techniques and field applicability of innovative testing and analysis methodologies and engineering practices in geoenvironmental engineering. The journal''s Editor in Chief is a Member of the Committee on Publication Ethics. All relevant papers are carefully considered, vetted by a distinguished team of international experts and rapidly published. Full research papers, short communications and comprehensive review articles are published under the following broad subject categories: geochemistry and geohydrology, soil and rock physics, biological processes in soil, soil-atmosphere interaction, electrical, electromagnetic and thermal characteristics of porous media, waste management, utilization of wastes, multiphase science, landslide wasting, soil and water conservation, sensor development and applications, the impact of climatic changes on geoenvironmental, geothermal/ground-source energy, carbon sequestration, oil and gas extraction techniques, uncertainty, reliability and risk, monitoring and forensic geotechnics.
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